==>runtrx start: date: Tue Jul 16 12:23:10 EDT 2024 ( mccune003.pppl.gov ) argv = 2 iarg = 2 cmd_opt = run runtrx: tok.yy = JET.21 ==========(runtrx)====================== date: Tue Jul 16 12:23:10 EDT 2024 ( mccune003.pppl.gov ) args: 101185V10 run ==========(runtrx)====================== ==========(runtrx)====================== ==========TRANSP link & load============ ==========(runtrx)====================== date: Tue Jul 16 12:23:10 EDT 2024 ( mccune003.pppl.gov ) --> copy_expert_for: standard expert source copied to: 101185V10ex.for --> copy_expert_for: up-to-date expert object copied to: 101185V10ex.o **** uplink 101185V10tr nolib check_xlibvars: setenv L_NAG (null) check_xlibvars: setenv L_MDESCR (null) check_xlibvars: setenv LMPI_FRANTIC(null) make: `/local/tr_zstancar/transp_compute/JET/101185V10/101185V10ex.o' is up to date. csh -f /local/tr_zstancar/transp_compute/JET/101185V10/101185V10tr.sh csh/linkload detected: C++ libraries requirement with f90 linkage ==>runtrx: TRANSP link successful ==========(runtrx)====================== ==========TRANSP execution============== date: Tue Jul 16 12:26:59 EDT 2024 ( mccune003.pppl.gov ) ==========(runtrx)====================== runtrx: Check File System runtrx: mpirun_option= true found proclist.dat %shell_server_exec: Testing file system ... %shell_server_exec: runid = 101185V10 %shell_server_exec: dir0 = /local/tr_zstancar/transp_compute/JET/101185V10 %shell_server_exec: dirN = /local/tr_zstancar/transp_compute/JET/101185V10 %shell_server_exec: testfile = 101185V10_13473_test.dat %shell_server_exec: not a parallel file system, did not find mccune004.pppl.gov:/local/tr_zstancar/transp_compute/JET/101185V10/101185V10_13473_test.dat %runtrx: TRANSP_EXEC_METHOD = 0 %runtrx: TRANSP_PARALLEL_FILESYS = NO ...in runtrx, MPI_CMD is: /usr/pppl/intel/2019-pkgs/openmpi-4.0.3/bin/mpiexec --bind-to none ...runtrx executing: /usr/pppl/intel/2019-pkgs/openmpi-4.0.3/bin/mpiexec --bind-to none -np 32 /l/mccune003/tr_zstancar/transp_compute/JET/101185V10/101185V10TR.EXE 101185V10 ... %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. trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 trmpi_init: TOR_NPROCS = 32 32 %trmpi_openlog: LOGFILE_LEVEL = warn DATE: Tue Jul 16 12:27:03 2024 TRANSP Version: 24.3.1 TRANSP DOI: 10.11578/dc.20180627.4 Build Date: 2024/07/01 namelist elements assigned more than once WITH change of value: NNPHI NUM_NPHI WNPHI namelist element value field(s): decimal point(s) inserted: AIMP XZIMP XZIMPS XZMINI AMINI FRACMINI DTMINT DTMING XZRCYC %NLIST: open namelist file101185V10TR.ZDA %trcom_static_box: loading static data %trgdat: NLBCCW= F from PH.CDF file %trgdat: NLJCCW= F from PH.CDF file %trcom_allocate: reallocate: RLIM_PTS %trcom_allocate: reallocate: YLIM_PTS %trgdat: NMOM= 16 %DATCHK_MPI: NTORIC_PSERVE = 1 %trmpi_set_numprocs: TRANSP w/MPI linked in, numprocs= 32. ************************** **** TRANSP MPI MODE: **** ************************** TRANSP_NPROCS = 32 trmpi_env_update broadcast (cpu0): mpi_share_env done. %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 -- XSRCIM<>0 is incompatible with multiple impurities -- setting XSRCIM=0 %DATCHK: full equilibrium input DATCHK: CHECKING ARRAY DIMENSIONS, SWITCHES, ETC %datchk: ndefine( 2 )=2; frac( 2 ) ignored as density profile is prescribed. %datchk: ndefine( 3 )=2; frac( 3 ) ignored as density profile is prescribed. %DATCHK: NYXINV incremented to be odd: 101 161 %DATCHK: no ECH/ECCD, NLECH=F, %DATCHK: no Lower Hybrid, NLLH=F XZRCYC = 1.00000000000000 species 1 A= 3.97368759410027 Z= 2.00000000000000 Z != "ZRECYC" -- recycling scaled. %DATCKICH: TORIC-5 solver, with numerical MHD equilibrium geometry. %DATCKICH: RGEOANT_A is in use => ignore NGEOANT=1 NGEOANT reset to match number of non-zero RGEOANT values. *** NGEOANT reset to: 10 Warning! Result depends on setting RGEOANT_A! %datckich for TORIC5: increased NICHPSI from 128 to 320 %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: no LH on/off times found. %EC_ONOFF: no ECH on/off times found. %ICRF_ONOFF: ICRF on/off times (s): 1.0008E+01 1.8413E+01 %NB_ONOFF: no NBI on/off times found. ps_init_tag: Plasma State v3.000 f90 module initialization. %ps_merge_species_lists: impurities in "sa" abridged thermal species list: Be W %ps_merge_species_lists: impurities in "sa" abridged thermal species list: Be W AUXVAL-- INITITIALIZE shared data structures. %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. %ACAVG warning: non-zero status on: rm -f 101185V10TMP.BDENS2.TMP 101185V10TMP.BDENS2 %ACAVG warning: non-zero status on: rm -f 101185V10NMP.BDENS2.TMP 101185V10NMP.BDENS2 (jsystem() calls replaced with portlib calls). %ACAVG warning: non-zero status on: rm -f 101185V10TMP.BMVOL.TMP 101185V10TMP.BMVOL %ACAVG warning: non-zero status on: rm -f 101185V10NMP.BMVOL.TMP 101185V10NMP.BMVOL (jsystem() calls replaced with portlib calls). %ACAVG warning: non-zero status on: rm -f 101185V10TMP.EBA2PL.TMP 101185V10TMP.EBA2PL %ACAVG warning: non-zero status on: rm -f 101185V10NMP.EBA2PL.TMP 101185V10NMP.EBA2PL (jsystem() calls replaced with portlib calls). %ACAVG warning: non-zero status on: rm -f 101185V10TMP.EBA2PP.TMP 101185V10TMP.EBA2PP %ACAVG warning: non-zero status on: rm -f 101185V10NMP.EBA2PP.TMP 101185V10NMP.EBA2PP (jsystem() calls replaced with portlib calls). %ACAVG warning: non-zero status on: rm -f 101185V10TMP.FBM.TMP 101185V10TMP.FBM %ACAVG warning: non-zero status on: rm -f 101185V10NMP.FBM.TMP 101185V10NMP.FBM (jsystem() calls replaced with portlib calls). %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init MCINIT: RANDOM NUMBER GEN INITIALIZED - 896477057 896477057 %tabort_update: no namelist TABORT requests after t= 16.1000000000000 AUXVAL-- INITIALIZE PLOTTING OUTPUT SYSTEM AUXVAL-- INITIALIZE TEMPERATURE AND DENSITY PROFILES AUXVAL-- GEOMETRY INITIALIZATION PART 2. GFRAM0: bdy curvature ratio OK at t= 1.6120E+01 seconds: 1.5364E-01 GFRAM0: bdy curvature ratio OK at t= 1.6100E+01 seconds: 1.5385E-01 % MHDEQ: TG1= 16.100000 ; TG2= 16.120000 ; DTG= 2.000E-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 = 4.1370E-03 SECONDS DATA R*BT AT EDGE: 7.3811E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5385E-01 %get_rygrid: no grids for Psi(R,Y) %get_rygrid: no grids for Psi(R,Y) %profnd: no NID data, so use ratio*[electron density]; ratio is: 5.000000000000000E-003 %profnd: no NIT data, so use ratio*[electron density]; ratio is: 1.000000000000000E-004 %profnd: no NID data, so use ratio*[electron density]; ratio is: 5.000000000000000E-003 %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 dmg_datbuf_expand call from dmgini_sized: isize= 0 ...reading TF.PLN header data... ----------------------- %frantic_sorce1 -- resolution increased: previous: 20 ; now: 30 minimum resolution = min(50,nzones) ----------------------- *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 1.60000E+01 CPU TIME= 1.98232E+00 SECONDS. DT= 1.00000E-03 %INITAL: pseudo time advanced to 1.600100E+01 %INITAL: pseudo time advanced to 1.600225E+01 %INITAL: pseudo time advanced to 1.600381E+01 %INITAL: pseudo time advanced to 1.600577E+01 %INITAL: pseudo time advanced to 1.600821E+01 %INITAL: pseudo time advanced to 1.601126E+01 %INITAL: pseudo time advanced to 1.601507E+01 %INITAL: pseudo time advanced to 1.601984E+01 %INITAL: pseudo time advanced to 1.602580E+01 % MHDEQ: TG1= 16.100000 ; TG2= 16.120000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.2530E-03 SECONDS DATA R*BT AT EDGE: 7.3811E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5385E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 16.100000 ; TG2= 16.120000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.2980E-03 SECONDS DATA R*BT AT EDGE: 7.3801E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5364E-01 %get_rygrid: no grids for Psi(R,Y) *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 1.60258E+01 CPU TIME= 1.97668E+00 SECONDS. DT= 7.45058E-03 %INITAL: pseudo time advanced to 1.603146E+01 %INITAL: pseudo time advanced to 1.603686E+01 %INITAL: pseudo time advanced to 1.604215E+01 % MHDEQ: TG1= 16.100000 ; TG2= 16.120000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.2610E-03 SECONDS DATA R*BT AT EDGE: 7.3811E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5385E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 16.100000 ; TG2= 16.120000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.3550E-03 SECONDS DATA R*BT AT EDGE: 7.3801E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5364E-01 %get_rygrid: no grids for Psi(R,Y) *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 1.60421E+01 CPU TIME= 1.97699E+00 SECONDS. DT= 6.60616E-03 %INITAL: pseudo time advanced to 1.604875E+01 %INITAL: pseudo time advanced to 1.605482E+01 %INITAL: pseudo time advanced to 1.606048E+01 % MHDEQ: TG1= 16.100000 ; TG2= 16.120000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.2720E-03 SECONDS DATA R*BT AT EDGE: 7.3811E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5385E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 16.100000 ; TG2= 16.120000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.3710E-03 SECONDS DATA R*BT AT EDGE: 7.3801E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5364E-01 %get_rygrid: no grids for Psi(R,Y) *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 1.60605E+01 CPU TIME= 1.93254E+00 SECONDS. DT= 7.06798E-03 %INITAL: pseudo time advanced to 1.606588E+01 %INITAL: pseudo time advanced to 1.607117E+01 %INITAL: pseudo time advanced to 1.607777E+01 %INITAL: pseudo time advanced to 1.608384E+01 %INITAL: pseudo time advanced to 1.608950E+01 %INITAL: pseudo time advanced to 1.609490E+01 sce_equil_init: Equilibration feature not active (noption_equil <= 0 in namelist). fimain: call trmpi_group => tr_rfprep: TORIC_MPI detected setting zgrid%ncpu = 32 and zgrid%ncptype = 1 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.587E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.362E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.600E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.59008700000000 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9471E+00 3.8815E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 269.5 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 269.5 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 269.5 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 269.5 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %fpwrnml: starting file: 101185V10FPPRF.DATA %nconpro: copying namelist: &FPPIN !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.587E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.362E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.600E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1 TA= 1.61000E+01 CPU TIME= 1.98369E+00 SECONDS. DT= 6.75316E-03 %check_save_state: SLURM_JOB_ID = 6367738 %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 = 1.493722222221550E-002 %check_save_state: izleft hours = 79.9183333333333 %wrstf: start call wrstf. %wrstf: open new restart file:101185V10RS.DAT %wrstf: open101185V10RS.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= 1.6100000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.953E+03 MB. --> plasma_hash("gframe"): TA= 1.610000E+01 NSTEP= 1 Hash code: 10464128 ->PRGCHK: bdy curvature ratio at t= 1.6110E+01 seconds is: 1.5374E-01 % MHDEQ: TG1= 16.100000 ; TG2= 16.110000 ; DTG= 1.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6460E-03 SECONDS DATA R*BT AT EDGE: 7.3806E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5374E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.100000 TO TG2= 16.110000 @ NSTEP 1 GFRAME TG2 MOMENTS CHECKSUM: 1.3078194787616D+04 GASFL called from sbrtn pbal GASFL called from sbrtn pbal %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 "CFTCX_GFD", # 1= 3.72353E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.04926E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.611000E+01 NSTEP= 3 Hash code: 96838795 ->PRGCHK: bdy curvature ratio at t= 1.6120E+01 seconds is: 1.5364E-01 % MHDEQ: TG1= 16.110000 ; TG2= 16.120000 ; DTG= 1.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.3500E-03 SECONDS DATA R*BT AT EDGE: 7.3801E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5364E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.110000 TO TG2= 16.120000 @ NSTEP 3 GFRAME TG2 MOMENTS CHECKSUM: 1.3079579678658D+04 fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.351E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.569E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.85086100000000 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9470E+00 3.8814E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 269.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 269.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 269.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.7 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 269.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.351E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.569E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.351E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.569E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.351E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.569E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.351E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.569E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.351E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.569E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.00015875758324 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 5 TA= 1.61200E+01 CPU TIME= 1.99010E+00 SECONDS. DT= 6.59807E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 4.068027777771022E-002 %check_save_state: izleft hours = 79.8925000000000 --> plasma_hash("gframe"): TA= 1.612000E+01 NSTEP= 5 Hash code: 9899538 ->PRGCHK: bdy curvature ratio at t= 1.6140E+01 seconds is: 1.6744E-01 % MHDEQ: TG1= 16.120000 ; TG2= 16.140000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6720E-03 SECONDS DATA R*BT AT EDGE: 7.3832E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6744E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.120000 TO TG2= 16.140000 @ NSTEP 5 GFRAME TG2 MOMENTS CHECKSUM: 1.3074056335230D+04 %MFRCHK - LABEL "TQMINORB", # 1= 2.12993E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.13401E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.29965E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.345E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.554E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.86050200000000 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9482E+00 3.8866E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 269.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 269.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 269.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 238.0 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 269.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.42777616014762 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.83065673130510 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.13585887870022 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.96335573799023 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.345E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.554E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.04373458434282 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.04327617555293 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.345E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.554E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.345E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.554E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.345E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.554E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.09904565588092 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.345E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.554E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.11058410263533 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.345E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.554E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8 TA= 1.61400E+01 CPU TIME= 1.91885E+00 SECONDS. DT= 6.44293E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 7.023666666691497E-002 %check_save_state: izleft hours = 79.8630555555556 --> plasma_hash("gframe"): TA= 1.614000E+01 NSTEP= 8 Hash code: 70549233 ->PRGCHK: bdy curvature ratio at t= 1.6160E+01 seconds is: 1.6228E-01 % MHDEQ: TG1= 16.140000 ; TG2= 16.160000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8470E-03 SECONDS DATA R*BT AT EDGE: 7.3814E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6228E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.140000 TO TG2= 16.160000 @ NSTEP 8 GFRAME TG2 MOMENTS CHECKSUM: 1.3069114232809D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.97918E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.20859E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.359E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.591E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.61751699999999 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9495E+00 3.8889E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 269.3 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 269.3 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 269.3 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 238.0 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.7 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 269.3 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 6.57987975638066 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.60374304475007 at nshe,nfasti = 2 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.359E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.591E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.04158721085513 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.359E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.591E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.359E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.591E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 11 TA= 1.61600E+01 CPU TIME= 1.84314E+00 SECONDS. DT= 6.87927E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 8.887416666675563E-002 %check_save_state: izleft hours = 79.8444444444444 --> plasma_hash("gframe"): TA= 1.616000E+01 NSTEP= 11 Hash code: 101167756 ->PRGCHK: bdy curvature ratio at t= 1.6180E+01 seconds is: 1.6100E-01 % MHDEQ: TG1= 16.160000 ; TG2= 16.180000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.5960E-03 SECONDS DATA R*BT AT EDGE: 7.3796E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6100E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.160000 TO TG2= 16.180000 @ NSTEP 11 GFRAME TG2 MOMENTS CHECKSUM: 1.3067383520134D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.83060E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.07154E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.373E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.630E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.61028500000003 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9496E+00 3.8904E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 269.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 269.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 269.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 238.0 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.5 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 269.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.373E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.630E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 14 TA= 1.61800E+01 CPU TIME= 1.98891E+00 SECONDS. DT= 8.27655E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.100825277777631 %check_save_state: izleft hours = 79.8325000000000 --> plasma_hash("gframe"): TA= 1.618000E+01 NSTEP= 14 Hash code: 77539240 ->PRGCHK: bdy curvature ratio at t= 1.6200E+01 seconds is: 1.5427E-01 % MHDEQ: TG1= 16.180000 ; TG2= 16.200000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7460E-03 SECONDS DATA R*BT AT EDGE: 7.3781E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5427E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.180000 TO TG2= 16.200000 @ NSTEP 14 GFRAME TG2 MOMENTS CHECKSUM: 1.3064962471067D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.75412E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.01488E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.390E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.676E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.66470400000003 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9487E+00 3.8890E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 269.0 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 269.0 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 269.0 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 269.0 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 0.240133600346776 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2007 f( 74, 20)= -5.354D+00 f<0 at time= 16.2007 f( 75, 20)= -5.347D+00 f<0 at time= 16.2007 f( 74, 31)= -5.354D+00 f<0 at time= 16.2007 f( 75, 31)= -5.347D+00 %fp_imp warning: RF renorm adjust = 0.301458921958786 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 0.324625634362006 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 0.370113465199833 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 0.339728852209133 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 0.349158803859517 at nshe,nfasti = 3 6 FPPRF: # of f < 0 errors = 4 on shell # 3 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.390E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.676E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.01420860971502 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.390E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.676E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2144 f( 74, 20)= -1.070D+00 f<0 at time= 16.2144 f( 75, 20)= -1.069D+00 f<0 at time= 16.2144 f( 74, 31)= -1.070D+00 f<0 at time= 16.2144 f( 75, 31)= -1.069D+00 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2156 f( 74, 20)= -2.526D-01 f<0 at time= 16.2156 f( 75, 20)= -2.522D-01 f<0 at time= 16.2156 f( 74, 31)= -2.526D-01 f<0 at time= 16.2156 f( 75, 31)= -2.522D-01 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2144 f( 74, 20)= -8.601D-01 f<0 at time= 16.2144 f( 75, 20)= -8.594D-01 f<0 at time= 16.2144 f( 74, 31)= -8.601D-01 f<0 at time= 16.2144 f( 75, 31)= -8.594D-01 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2156 f( 74, 20)= -2.895D-01 f<0 at time= 16.2156 f( 75, 20)= -2.891D-01 f<0 at time= 16.2156 f( 74, 31)= -2.895D-01 f<0 at time= 16.2156 f( 75, 31)= -2.891D-01 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2167 f( 74, 20)= -2.471D-01 f<0 at time= 16.2167 f( 75, 20)= -2.467D-01 f<0 at time= 16.2167 f( 74, 31)= -2.471D-01 f<0 at time= 16.2167 f( 75, 31)= -2.467D-01 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2178 f( 74, 20)= -1.751D-01 f<0 at time= 16.2178 f( 75, 20)= -1.748D-01 f<0 at time= 16.2178 f( 74, 31)= -1.751D-01 f<0 at time= 16.2178 f( 75, 31)= -1.748D-01 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2189 f( 74, 20)= -8.360D-02 f<0 at time= 16.2189 f( 75, 20)= -8.337D-02 f<0 at time= 16.2189 f( 74, 31)= -8.360D-02 f<0 at time= 16.2189 f( 75, 31)= -8.337D-02 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.2200 f( 74, 20)= -8.325D-02 f<0 at time= 16.2200 f( 75, 20)= -8.302D-02 f<0 at time= 16.2200 f( 74, 31)= -8.325D-02 f<0 at time= 16.2200 f( 75, 31)= -8.302D-02 FPPRF: # of f < 0 errors = 24 on shell # 3 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 17 TA= 1.62000E+01 CPU TIME= 1.84135E+00 SECONDS. DT= 9.44502E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.116165833333298 %check_save_state: izleft hours = 79.8169444444444 --> plasma_hash("gframe"): TA= 1.620000E+01 NSTEP= 17 Hash code: 21188484 ->PRGCHK: bdy curvature ratio at t= 1.6220E+01 seconds is: 1.4805E-01 % MHDEQ: TG1= 16.200000 ; TG2= 16.220000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6710E-03 SECONDS DATA R*BT AT EDGE: 7.3800E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4805E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.200000 TO TG2= 16.220000 @ NSTEP 17 GFRAME TG2 MOMENTS CHECKSUM: 1.3048822524158D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.75724E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.01967E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.410E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.731E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.74811199999999 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9494E+00 3.8852E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 269.0 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 269.0 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 269.0 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 269.0 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 8.71762287082844 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.21791079792364 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.43560444318486 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.47112130665362 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 3.15641463207838 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.32608920560355 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.43175205327584 at nshe,nfasti = 3 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.410E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.731E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.04037692574791 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.10241034934931 at nshe,nfasti = 4 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.410E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.731E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.18656600706436 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.51688708923489 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.21620004908238 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 3.02198521587434 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.05435141151666 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.23017146752351 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 0.488389535516700 at nshe,nfasti = 4 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.410E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.731E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.28423694750968 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 0.489634278451656 at nshe,nfasti = 4 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 21 TA= 1.62200E+01 CPU TIME= 1.83609E+00 SECONDS. DT= 2.84204E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.135194722222650 %check_save_state: izleft hours = 79.7980555555555 --> plasma_hash("gframe"): TA= 1.622000E+01 NSTEP= 21 Hash code: 56983675 ->PRGCHK: bdy curvature ratio at t= 1.6240E+01 seconds is: 1.4514E-01 % MHDEQ: TG1= 16.220000 ; TG2= 16.240000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6460E-03 SECONDS DATA R*BT AT EDGE: 7.3800E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4514E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.220000 TO TG2= 16.240000 @ NSTEP 21 GFRAME TG2 MOMENTS CHECKSUM: 1.3044066599930D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.84061E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.07557E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.592E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.427E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.779E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.65326300000004 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9494E+00 3.8840E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.9 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.9 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.9 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.9 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.592E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.427E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.779E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.81519796810238 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.42704469081940 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.36569665093004 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 26 TA= 1.62400E+01 CPU TIME= 1.97141E+00 SECONDS. DT= 4.51732E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.147229444444520 %check_save_state: izleft hours = 79.7861111111111 --> plasma_hash("gframe"): TA= 1.624000E+01 NSTEP= 26 Hash code: 86524688 ->PRGCHK: bdy curvature ratio at t= 1.6260E+01 seconds is: 1.2978E-01 % MHDEQ: TG1= 16.240000 ; TG2= 16.260000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.5690E-03 SECONDS DATA R*BT AT EDGE: 7.3784E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2978E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.240000 TO TG2= 16.260000 @ NSTEP 26 GFRAME TG2 MOMENTS CHECKSUM: 1.3048702366431D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.87601E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.10189E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.592E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.433E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.796E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.63927400000000 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9478E+00 3.8817E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.7 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.7 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.7 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.2 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.7 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.80623041143240 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 3.10144191229591 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.61577072485190 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 4.04892184493660 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 4.23947362018013 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.592E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.433E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.796E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 30 TA= 1.62600E+01 CPU TIME= 1.97939E+00 SECONDS. DT= 3.47214E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.159378611110924 %check_save_state: izleft hours = 79.7738888888889 --> plasma_hash("gframe"): TA= 1.626000E+01 NSTEP= 30 Hash code: 60722967 ->PRGCHK: bdy curvature ratio at t= 1.6280E+01 seconds is: 1.4308E-01 % MHDEQ: TG1= 16.260000 ; TG2= 16.280000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7020E-03 SECONDS DATA R*BT AT EDGE: 7.3818E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4308E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.260000 TO TG2= 16.280000 @ NSTEP 30 GFRAME TG2 MOMENTS CHECKSUM: 1.3045702612985D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.87284E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.12583E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.593E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.444E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.826E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.78937499999995 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9493E+00 3.8834E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.7 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.7 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.7 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.3 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.7 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.56586950426468 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 34 TA= 1.62800E+01 CPU TIME= 1.83867E+00 SECONDS. DT= 8.45310E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.168167222222110 %check_save_state: izleft hours = 79.7650000000000 --> plasma_hash("gframe"): TA= 1.628000E+01 NSTEP= 34 Hash code: 86235527 ->PRGCHK: bdy curvature ratio at t= 1.6300E+01 seconds is: 1.4745E-01 % MHDEQ: TG1= 16.280000 ; TG2= 16.300000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6780E-03 SECONDS DATA R*BT AT EDGE: 7.3821E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4745E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.280000 TO TG2= 16.300000 @ NSTEP 34 GFRAME TG2 MOMENTS CHECKSUM: 1.3047081745765D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.83984E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.12018E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.591E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.420E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.759E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.78200999999990 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9498E+00 3.8849E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.7 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.7 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.7 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.2 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.7 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.29890872508333 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.38406960571967 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 6.82778034062150 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.67654003303064 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.591E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.420E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.759E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 38 TA= 1.63000E+01 CPU TIME= 1.94343E+00 SECONDS. DT= 2.48378E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.180275000000165 %check_save_state: izleft hours = 79.7530555555556 --> plasma_hash("gframe"): TA= 1.630000E+01 NSTEP= 38 Hash code: 24864833 ->PRGCHK: bdy curvature ratio at t= 1.6320E+01 seconds is: 1.5044E-01 % MHDEQ: TG1= 16.300000 ; TG2= 16.320000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6180E-03 SECONDS DATA R*BT AT EDGE: 7.3795E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5044E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.300000 TO TG2= 16.320000 @ NSTEP 38 GFRAME TG2 MOMENTS CHECKSUM: 1.3063801441753D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.72123E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.01241E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.587E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.374E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.634E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.59480599999995 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9495E+00 3.8872E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.5 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.5 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.21944372014184 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.32404932927206 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 3.49308694218548 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.03575245636164 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.587E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.374E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.634E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 45 TA= 1.63200E+01 CPU TIME= 1.98254E+00 SECONDS. DT= 3.48160E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.192606388888862 %check_save_state: izleft hours = 79.7405555555556 --> plasma_hash("gframe"): TA= 1.632000E+01 NSTEP= 45 Hash code: 919137 ->PRGCHK: bdy curvature ratio at t= 1.6340E+01 seconds is: 1.5906E-01 % MHDEQ: TG1= 16.320000 ; TG2= 16.340000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7960E-03 SECONDS DATA R*BT AT EDGE: 7.3798E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5906E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.320000 TO TG2= 16.340000 @ NSTEP 45 GFRAME TG2 MOMENTS CHECKSUM: 1.3060630521437D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.66633E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.99298E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.584E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.326E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.503E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.58100700000000 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9488E+00 3.8891E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.5 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.5 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 7.65775457443784 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00830949755297 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 8.02980700860519 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.64128134145932 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 3.10469181113912 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.74670212965012 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.99108815782732 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -6.27696971864347 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -3.76170228798089 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -6.43937303073283 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -14.6357504978979 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -45.2915891305571 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.14987051321206 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.584E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.326E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.503E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.33644517325646 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -11.1663370547343 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -4.79417786225992 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -8.02695011711273 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -12.5046160702210 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -12.6230762148449 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -19.2970803040728 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -48.8325678191873 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -80.7090709784006 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -91.9744775160267 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -126.413461566520 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -339.778455324488 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1265.12681499263 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -9510.84122983122 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20480.0000000000 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 5.00337740536308 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -0.760550761527163 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1.29519225807691 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.06158855062340 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.584E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.326E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.503E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -2.23481244727164 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -2.76669001471495 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -4.97599488088505 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -7.11042322705793 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -12.5451080526013 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -23.3927876011821 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -44.5188764513525 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -85.5056842391583 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -165.128194298656 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -320.391778053606 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -624.663823321227 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1224.45591993077 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -2413.53839295239 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -4783.09097663029 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -9528.53759261630 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -19077.8375570165 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -38383.8588463571 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -77594.6056580232 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -157595.711362808 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -321570.517485633 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -659235.302319583 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1357928.82419788 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -2810962.22859556 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -5848930.71063341 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -12237196.3209771 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -25754784.0971236 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -54556781.4492014 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -116405065.262309 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -250404195.979966 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -543761256.145539 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1193973793.37374 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -2657158587.44900 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -6013095842.48549 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -13903623911.7542 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -33095201415.9890 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -82139755604.0348 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -212257309660.398 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -632903289866.385 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.00924906084212 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = -1.91369909593141 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -6.49574110293644 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -17.2651151666297 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -60.7432680540321 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.00571040282140 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.00796004724120 at nshe,nfasti = 7 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 52 TA= 1.63400E+01 CPU TIME= 1.83913E+00 SECONDS. DT= 1.35838E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.208789722222036 %check_save_state: izleft hours = 79.7244444444444 --> plasma_hash("gframe"): TA= 1.634000E+01 NSTEP= 52 Hash code: 35717964 ->PRGCHK: bdy curvature ratio at t= 1.6360E+01 seconds is: 1.6312E-01 % MHDEQ: TG1= 16.340000 ; TG2= 16.360000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7120E-03 SECONDS DATA R*BT AT EDGE: 7.3791E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6312E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.340000 TO TG2= 16.360000 @ NSTEP 52 GFRAME TG2 MOMENTS CHECKSUM: 1.3055272080555D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.63537E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.96821E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.584E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.334E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.525E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.87873000000002 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9484E+00 3.8888E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.395156209403548 Pqlo = -7.206716314581828E-002 W/cm3 %fp_imp warning: RF renorm adjust = 2.12144173045582 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.17999914144493 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.02700718126754 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.44144422068349 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.55686211943323 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.584E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.334E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.525E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.306146851018824 Pqlo = -1.831735567844268E-004 W/cm3 %fp_imp warning: RF renorm adjust = -6.69714938255745 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.16145539299386 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.49116435049789 at nshe,nfasti = 7 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.11043592199044 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.45113364412965 at nshe,nfasti = 7 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.05500611637613 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.46082530813999 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.584E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.334E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.525E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.64677356164935 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 0.386043649025314 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.17589367692735 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.45897656042438 at nshe,nfasti = 7 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59 TA= 1.63600E+01 CPU TIME= 2.11946E+00 SECONDS. DT= 5.88292E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.225558333333538 %check_save_state: izleft hours = 79.7075000000000 --> plasma_hash("gframe"): TA= 1.636000E+01 NSTEP= 59 Hash code: 106934337 ->PRGCHK: bdy curvature ratio at t= 1.6380E+01 seconds is: 1.7302E-01 % MHDEQ: TG1= 16.360000 ; TG2= 16.380000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7360E-03 SECONDS DATA R*BT AT EDGE: 7.3774E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7302E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.360000 TO TG2= 16.380000 @ NSTEP 59 GFRAME TG2 MOMENTS CHECKSUM: 1.3043667985067D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.64026E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.95298E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.341E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.542E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.87311599999998 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9480E+00 3.8860E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.2 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.2 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -13.5032766826314 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -8.78193482455244 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -13.9892119774993 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -21.4092563645763 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -32.8009261413944 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -60.2491226084933 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -163.599673897454 at nshe,nfasti = 3 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.341E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.542E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.358509075859350 Pqlo = -7.479519153635461E-002 W/cm3 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 62 TA= 1.63800E+01 CPU TIME= 2.08309E+00 SECONDS. DT= 8.45430E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.238736111111621 %check_save_state: izleft hours = 79.6944444444444 --> plasma_hash("gframe"): TA= 1.638000E+01 NSTEP= 62 Hash code: 8798646 ->PRGCHK: bdy curvature ratio at t= 1.6400E+01 seconds is: 1.6768E-01 % MHDEQ: TG1= 16.380000 ; TG2= 16.400000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8020E-03 SECONDS DATA R*BT AT EDGE: 7.3771E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6768E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.380000 TO TG2= 16.400000 @ NSTEP 62 GFRAME TG2 MOMENTS CHECKSUM: 1.3034351080740D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.62677E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.93571E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.346E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.556E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.93513900000005 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9484E+00 3.8848E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.2 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.2 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.346E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.556E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 65 TA= 1.64000E+01 CPU TIME= 2.08253E+00 SECONDS. DT= 1.22228E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.252695833333064 %check_save_state: izleft hours = 79.6805555555556 --> plasma_hash("gframe"): TA= 1.640000E+01 NSTEP= 65 Hash code: 41294629 ->PRGCHK: bdy curvature ratio at t= 1.6420E+01 seconds is: 1.6488E-01 % MHDEQ: TG1= 16.400000 ; TG2= 16.420000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8650E-03 SECONDS DATA R*BT AT EDGE: 7.3792E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6488E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.400000 TO TG2= 16.420000 @ NSTEP 65 GFRAME TG2 MOMENTS CHECKSUM: 1.3037236117586D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.61096E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.92240E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.355E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.580E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.88390200000003 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9498E+00 3.8865E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.355E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.580E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 73 TA= 1.64200E+01 CPU TIME= 2.15984E+00 SECONDS. DT= 1.96996E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.267138055555506 %check_save_state: izleft hours = 79.6661111111111 --> plasma_hash("gframe"): TA= 1.642000E+01 NSTEP= 73 Hash code: 105677203 ->PRGCHK: bdy curvature ratio at t= 1.6440E+01 seconds is: 1.6079E-01 % MHDEQ: TG1= 16.420000 ; TG2= 16.440000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8370E-03 SECONDS DATA R*BT AT EDGE: 7.3837E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6079E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.420000 TO TG2= 16.440000 @ NSTEP 73 GFRAME TG2 MOMENTS CHECKSUM: 1.3043447935231D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.70273E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.99259E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.360E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.593E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.83171099999993 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9514E+00 3.8908E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.5 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.5 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 0.319308157046268 at nshe,nfasti = 2 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 79 TA= 1.64400E+01 CPU TIME= 2.08129E+00 SECONDS. DT= 4.79056E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.277216111111329 %check_save_state: izleft hours = 79.6561111111111 --> plasma_hash("gframe"): TA= 1.644000E+01 NSTEP= 79 Hash code: 20889181 ->PRGCHK: bdy curvature ratio at t= 1.6460E+01 seconds is: 1.5442E-01 % MHDEQ: TG1= 16.440000 ; TG2= 16.460000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8410E-03 SECONDS DATA R*BT AT EDGE: 7.3829E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5442E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.440000 TO TG2= 16.460000 @ NSTEP 79 GFRAME TG2 MOMENTS CHECKSUM: 1.3045004202927D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.76350E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.01462E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.379E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.646E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.90972699999998 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9512E+00 3.8895E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.5 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.5 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83 TA= 1.64600E+01 CPU TIME= 2.08891E+00 SECONDS. DT= 2.17001E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.287750277778059 %check_save_state: izleft hours = 79.6455555555556 --> plasma_hash("gframe"): TA= 1.646000E+01 NSTEP= 83 Hash code: 23934802 ->PRGCHK: bdy curvature ratio at t= 1.6480E+01 seconds is: 1.4719E-01 % MHDEQ: TG1= 16.460000 ; TG2= 16.480000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8650E-03 SECONDS DATA R*BT AT EDGE: 7.3832E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4719E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.460000 TO TG2= 16.480000 @ NSTEP 83 GFRAME TG2 MOMENTS CHECKSUM: 1.3045836820594D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.84523E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.07231E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.393E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.685E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.88914999999997 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9507E+00 3.8887E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.97391588340352 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.87997874207065 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.02035063182350 at nshe,nfasti = 3 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89 TA= 1.64800E+01 CPU TIME= 2.08411E+00 SECONDS. DT= 2.73837E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.298292500000116 %check_save_state: izleft hours = 79.6350000000000 --> plasma_hash("gframe"): TA= 1.648000E+01 NSTEP= 89 Hash code: 10339672 ->PRGCHK: bdy curvature ratio at t= 1.6500E+01 seconds is: 1.3705E-01 % MHDEQ: TG1= 16.480000 ; TG2= 16.500000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8860E-03 SECONDS DATA R*BT AT EDGE: 7.3846E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3705E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.480000 TO TG2= 16.500000 @ NSTEP 89 GFRAME TG2 MOMENTS CHECKSUM: 1.3045624879697D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.94643E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.14400E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.395E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.689E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.91509399999995 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9503E+00 3.8887E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.5 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.5 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.6 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.6 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.8 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.5 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.33964858106253 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 94 TA= 1.65000E+01 CPU TIME= 2.08748E+00 SECONDS. DT= 5.26447E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.308832222222691 %check_save_state: izleft hours = 79.6244444444444 --> plasma_hash("gframe"): TA= 1.650000E+01 NSTEP= 94 Hash code: 77632133 ->PRGCHK: bdy curvature ratio at t= 1.6520E+01 seconds is: 1.3135E-01 % MHDEQ: TG1= 16.500000 ; TG2= 16.520000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8790E-03 SECONDS DATA R*BT AT EDGE: 7.3825E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3135E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.500000 TO TG2= 16.520000 @ NSTEP 94 GFRAME TG2 MOMENTS CHECKSUM: 1.3048557890065D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.00442E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.17755E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.391E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.680E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.88138699999990 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9485E+00 3.8868E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.36841041048843 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.51012772224236 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97 TA= 1.65200E+01 CPU TIME= 2.07785E+00 SECONDS. DT= 1.01937E-02 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.319559166666522 %check_save_state: izleft hours = 79.6136111111111 --> plasma_hash("gframe"): TA= 1.652000E+01 NSTEP= 97 Hash code: 74161067 ->PRGCHK: bdy curvature ratio at t= 1.6540E+01 seconds is: 1.3464E-01 % MHDEQ: TG1= 16.520000 ; TG2= 16.540000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7700E-03 SECONDS DATA R*BT AT EDGE: 7.3809E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3464E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.520000 TO TG2= 16.540000 @ NSTEP 97 GFRAME TG2 MOMENTS CHECKSUM: 1.3058460766516D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.92001E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.15082E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.384E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.662E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.89872999999989 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9475E+00 3.8843E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.94313620158184 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 99 TA= 1.65400E+01 CPU TIME= 2.07839E+00 SECONDS. DT= 1.22579E-02 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.330171944444601 %check_save_state: izleft hours = 79.6030555555556 --> plasma_hash("gframe"): TA= 1.654000E+01 NSTEP= 99 Hash code: 1487072 ->PRGCHK: bdy curvature ratio at t= 1.6560E+01 seconds is: 1.4156E-01 % MHDEQ: TG1= 16.540000 ; TG2= 16.560000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8360E-03 SECONDS DATA R*BT AT EDGE: 7.3800E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4156E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.540000 TO TG2= 16.560000 @ NSTEP 99 GFRAME TG2 MOMENTS CHECKSUM: 1.3064049715328D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.89605E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.15659E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.587E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.365E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.608E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.89984699999991 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9467E+00 3.8854E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.2 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.2 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5800 f( 90, 3)= -1.034D-20 FPPRF: # of f < 0 errors = 1 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 103 TA= 1.65600E+01 CPU TIME= 2.14672E+00 SECONDS. DT= 2.50573E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.340780000000450 %check_save_state: izleft hours = 79.5925000000000 --> plasma_hash("gframe"): TA= 1.656000E+01 NSTEP= 103 Hash code: 61471726 ->PRGCHK: bdy curvature ratio at t= 1.6580E+01 seconds is: 1.5124E-01 % MHDEQ: TG1= 16.560000 ; TG2= 16.580000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7650E-03 SECONDS DATA R*BT AT EDGE: 7.3786E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5124E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.560000 TO TG2= 16.580000 @ NSTEP 103 GFRAME TG2 MOMENTS CHECKSUM: 1.3065390355809D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.90798E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.12220E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.354E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.577E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.82596600000011 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9479E+00 3.8876E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.2 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.2 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5817 f( 90, 3)= -3.377D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5833 f( 90, 3)= -3.568D-20 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5817 f( 90, 3)= -3.377D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5833 f( 90, 3)= -3.568D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5850 f( 90, 3)= -3.759D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5867 f( 90, 3)= -3.949D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5883 f( 90, 3)= -4.140D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5900 f( 90, 3)= -4.330D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.02970866109282 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -461.326177964854 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -408.560646673122 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -510.630036475164 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5917 f( 90, 3)= -4.521D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5933 f( 90, 3)= -4.711D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5950 f( 90, 3)= -4.902D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5967 f( 90, 3)= -5.092D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.5983 f( 90, 3)= -5.282D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6000 f( 90, 3)= -5.473D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 108 TA= 1.65800E+01 CPU TIME= 2.07693E+00 SECONDS. DT= 6.94115E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.351219722222595 %check_save_state: izleft hours = 79.5819444444444 --> plasma_hash("gframe"): TA= 1.658000E+01 NSTEP= 108 Hash code: 27193071 ->PRGCHK: bdy curvature ratio at t= 1.6600E+01 seconds is: 1.5399E-01 % MHDEQ: TG1= 16.580000 ; TG2= 16.600000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8420E-03 SECONDS DATA R*BT AT EDGE: 7.3801E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5399E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.580000 TO TG2= 16.600000 @ NSTEP 108 GFRAME TG2 MOMENTS CHECKSUM: 1.3061905486143D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.70891E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.99063E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.351E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.569E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.91364599999997 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9492E+00 3.8896E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.469387080703034 Pqlo = -4.723278025617637E-003 W/cm3 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6011 f( 90, 3)= -2.511D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6022 f( 90, 3)= -2.549D-20 %fp_imp warning: RF renorm adjust = 7.01732442086383 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6011 f( 90, 3)= -2.511D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6022 f( 90, 3)= -2.549D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6033 f( 90, 3)= -2.587D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6044 f( 90, 3)= -2.624D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6056 f( 90, 3)= -2.662D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6067 f( 90, 3)= -2.701D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: RF renorm adjust = 8.90032429678872 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6078 f( 90, 3)= -2.739D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6089 f( 90, 3)= -2.777D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6100 f( 90, 3)= -2.816D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6111 f( 90, 3)= -2.854D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6122 f( 90, 3)= -2.893D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6133 f( 90, 3)= -2.931D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: RF renorm adjust = 8.58464114084487 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6144 f( 90, 3)= -2.970D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6156 f( 90, 3)= -3.009D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6167 f( 90, 3)= -3.048D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6178 f( 90, 3)= -3.087D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6189 f( 90, 3)= -3.127D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6200 f( 90, 3)= -3.166D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 111 TA= 1.66000E+01 CPU TIME= 2.20930E+00 SECONDS. DT= 5.47801E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.362274166666793 %check_save_state: izleft hours = 79.5708333333333 --> plasma_hash("gframe"): TA= 1.660000E+01 NSTEP= 111 Hash code: 44475637 ->PRGCHK: bdy curvature ratio at t= 1.6620E+01 seconds is: 1.6296E-01 % MHDEQ: TG1= 16.600000 ; TG2= 16.620000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8140E-03 SECONDS DATA R*BT AT EDGE: 7.3846E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6296E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.600000 TO TG2= 16.620000 @ NSTEP 111 GFRAME TG2 MOMENTS CHECKSUM: 1.3048765129790D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.61522E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.97299E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.352E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.571E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.90525500000012 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9507E+00 3.8880E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.6 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.6 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.6 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.6 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.6 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.8 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.6 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6210 f( 90, 3)= -2.604D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6220 f( 90, 3)= -2.625D-20 %fp_imp warning: RF renorm adjust = 0.445326045661124 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6210 f( 90, 3)= -2.604D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6220 f( 90, 3)= -2.625D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6230 f( 90, 3)= -2.647D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6240 f( 90, 3)= -2.669D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6250 f( 90, 3)= -2.692D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6260 f( 90, 3)= -2.714D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6270 f( 90, 3)= -2.736D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6280 f( 90, 3)= -2.758D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6290 f( 90, 3)= -2.780D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6300 f( 90, 3)= -2.802D-20 FPPRF: # of f < 0 errors = 10 on shell # 13 %fp_imp warning: RF renorm adjust = 0.424301192433301 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 0.431191109767402 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 0.306759401463251 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = -9.30658850084291 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -30.5757776476139 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -120.832320975229 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -333.532324216934 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -2268.05801482472 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 320.000000000000 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6317 f( 90, 3)= -4.101D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6333 f( 90, 3)= -4.143D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6350 f( 90, 3)= -4.186D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6367 f( 90, 3)= -4.230D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6383 f( 90, 3)= -4.274D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6400 f( 90, 3)= -4.319D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 114 TA= 1.66200E+01 CPU TIME= 2.05968E+00 SECONDS. DT= 9.59309E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.372880555555412 %check_save_state: izleft hours = 79.5602777777778 --> plasma_hash("gframe"): TA= 1.662000E+01 NSTEP= 114 Hash code: 67891827 ->PRGCHK: bdy curvature ratio at t= 1.6640E+01 seconds is: 1.6773E-01 % MHDEQ: TG1= 16.620000 ; TG2= 16.640000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8160E-03 SECONDS DATA R*BT AT EDGE: 7.3831E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6773E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.620000 TO TG2= 16.640000 @ NSTEP 114 GFRAME TG2 MOMENTS CHECKSUM: 1.3065993676221D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.02679E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.26507E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.359E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.590E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.69613200000003 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9495E+00 3.8906E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.6 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.6 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6408 f( 90, 3)= -1.174D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6417 f( 90, 3)= -1.149D-20 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.19582814107246 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.40706801985568 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6408 f( 90, 3)= -1.174D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6417 f( 90, 3)= -1.149D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6425 f( 90, 3)= -1.124D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6433 f( 90, 3)= -1.098D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6442 f( 90, 3)= -1.072D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6450 f( 90, 3)= -1.047D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.52830484371360 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.6458 f( 90, 3)= -1.021D-20 FPPRF: # of f < 0 errors = 1 on shell # 13 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.67642370113895 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.359E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.590E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.455476399146747 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.33883244365363 at nshe,nfasti = 7 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 116 TA= 1.66400E+01 CPU TIME= 1.99782E+00 SECONDS. DT= 1.30086E-02 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.388457499999959 %check_save_state: izleft hours = 79.5447222222222 --> plasma_hash("gframe"): TA= 1.664000E+01 NSTEP= 116 Hash code: 13611471 ->PRGCHK: bdy curvature ratio at t= 1.6660E+01 seconds is: 1.5948E-01 % MHDEQ: TG1= 16.640000 ; TG2= 16.660000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8010E-03 SECONDS DATA R*BT AT EDGE: 7.3820E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5948E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.640000 TO TG2= 16.660000 @ NSTEP 116 GFRAME TG2 MOMENTS CHECKSUM: 1.3067432630396D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.06728E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.29674E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.351E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.570E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.92336000000000 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9486E+00 3.8907E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.40231926877354 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.70428586470975 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.43545975251190 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.01461093137711 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.19671782854404 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.46838749526914 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 118 TA= 1.66600E+01 CPU TIME= 2.02521E+00 SECONDS. DT= 1.33331E-02 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.399134166666499 %check_save_state: izleft hours = 79.5341666666667 --> plasma_hash("gframe"): TA= 1.666000E+01 NSTEP= 118 Hash code: 43926534 ->PRGCHK: bdy curvature ratio at t= 1.6680E+01 seconds is: 1.5701E-01 % MHDEQ: TG1= 16.660000 ; TG2= 16.680000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 4.0370E-03 SECONDS DATA R*BT AT EDGE: 7.3814E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5701E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.660000 TO TG2= 16.680000 @ NSTEP 118 GFRAME TG2 MOMENTS CHECKSUM: 1.3054895664651D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.96517E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.19841E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.349E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.565E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.70464599999991 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9484E+00 3.8888E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.3 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.3 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.3 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.7 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.3 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 120 TA= 1.66800E+01 CPU TIME= 1.92368E+00 SECONDS. DT= 1.31542E-02 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.409776111110887 %check_save_state: izleft hours = 79.5233333333333 --> plasma_hash("gframe"): TA= 1.668000E+01 NSTEP= 120 Hash code: 62960384 ->PRGCHK: bdy curvature ratio at t= 1.6700E+01 seconds is: 1.5425E-01 % MHDEQ: TG1= 16.680000 ; TG2= 16.700000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6590E-03 SECONDS DATA R*BT AT EDGE: 7.3795E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5425E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.680000 TO TG2= 16.700000 @ NSTEP 120 GFRAME TG2 MOMENTS CHECKSUM: 1.3053702118912D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.92626E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.16793E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.586E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.358E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.590E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.76544400000012 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9472E+00 3.8857E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.2 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.5 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.2 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 0.482835045113210 at nshe,nfasti = 2 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 122 TA= 1.67000E+01 CPU TIME= 2.05710E+00 SECONDS. DT= 1.23795E-02 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.420382222222088 %check_save_state: izleft hours = 79.5127777777778 --> plasma_hash("gframe"): TA= 1.670000E+01 NSTEP= 122 Hash code: 107511136 ->PRGCHK: bdy curvature ratio at t= 1.6720E+01 seconds is: 1.5965E-01 % MHDEQ: TG1= 16.700000 ; TG2= 16.720000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6410E-03 SECONDS DATA R*BT AT EDGE: 7.3795E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5965E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.700000 TO TG2= 16.720000 @ NSTEP 122 GFRAME TG2 MOMENTS CHECKSUM: 1.3041876449480D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.88816E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.14033E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.378E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.644E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.63987500000007 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9482E+00 3.8851E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.1 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.1 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7267 f( 90, 3)= -1.395D-20 FPPRF: # of f < 0 errors = 1 on shell # 13 %fp_imp warning: RF renorm adjust = 5.97771014663017 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 4.71261542652224 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.01240970267234 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7278 f( 90, 3)= -4.730D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7289 f( 90, 3)= -4.858D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7300 f( 90, 3)= -4.984D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7311 f( 90, 3)= -5.108D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7322 f( 90, 3)= -5.230D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7333 f( 90, 3)= -5.350D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: RF renorm adjust = 5.40584759754771 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 4.21426037462802 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.12500376727087 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7344 f( 90, 3)= -5.468D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7356 f( 90, 3)= -5.585D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7367 f( 90, 3)= -5.699D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7378 f( 90, 3)= -5.812D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7389 f( 90, 3)= -5.923D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.7400 f( 90, 3)= -6.032D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 125 TA= 1.67200E+01 CPU TIME= 2.06051E+00 SECONDS. DT= 2.93426E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.430679166667005 %check_save_state: izleft hours = 79.5025000000000 --> plasma_hash("gframe"): TA= 1.672000E+01 NSTEP= 125 Hash code: 65161014 ->PRGCHK: bdy curvature ratio at t= 1.6740E+01 seconds is: 1.5273E-01 % MHDEQ: TG1= 16.720000 ; TG2= 16.740000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8560E-03 SECONDS DATA R*BT AT EDGE: 7.3813E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5273E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.720000 TO TG2= 16.740000 @ NSTEP 125 GFRAME TG2 MOMENTS CHECKSUM: 1.3043830686197D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.67876E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.97657E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.400E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.703E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.93030699999986 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9498E+00 3.8865E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.32269700348744 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.57691542645675 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.86203058535891 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.05062220990044 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 7.56261203494108 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.09937530937387 at nshe,nfasti = 7 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 130 TA= 1.67400E+01 CPU TIME= 1.98190E+00 SECONDS. DT= 3.85266E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.440972500000044 %check_save_state: izleft hours = 79.4922222222222 --> plasma_hash("gframe"): TA= 1.674000E+01 NSTEP= 130 Hash code: 119477022 ->PRGCHK: bdy curvature ratio at t= 1.6760E+01 seconds is: 1.4093E-01 % MHDEQ: TG1= 16.740000 ; TG2= 16.760000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7480E-03 SECONDS DATA R*BT AT EDGE: 7.3801E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4093E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.740000 TO TG2= 16.760000 @ NSTEP 130 GFRAME TG2 MOMENTS CHECKSUM: 1.3057804961518D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.55573E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.90054E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.591E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.419E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.756E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.63600699999984 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9479E+00 3.8862E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.0 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.3 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.0 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.80313417436891 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 4.47438359866343 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.35913331541430 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 4.59824573862834 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 134 TA= 1.67600E+01 CPU TIME= 2.05676E+00 SECONDS. DT= 6.63966E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.450974444444682 %check_save_state: izleft hours = 79.4822222222222 --> plasma_hash("gframe"): TA= 1.676000E+01 NSTEP= 134 Hash code: 91637797 ->PRGCHK: bdy curvature ratio at t= 1.6780E+01 seconds is: 1.3491E-01 % MHDEQ: TG1= 16.760000 ; TG2= 16.780000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6130E-03 SECONDS DATA R*BT AT EDGE: 7.3795E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3491E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.760000 TO TG2= 16.780000 @ NSTEP 134 GFRAME TG2 MOMENTS CHECKSUM: 1.3066511261475D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.55409E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.96578E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.592E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.435E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.801E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.63276999999994 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9473E+00 3.8857E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.11565587290021 at nshe,nfasti = 2 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 137 TA= 1.67800E+01 CPU TIME= 2.04940E+00 SECONDS. DT= 6.32597E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.460856388888942 %check_save_state: izleft hours = 79.4722222222222 --> plasma_hash("gframe"): TA= 1.678000E+01 NSTEP= 137 Hash code: 76024144 ->PRGCHK: bdy curvature ratio at t= 1.6800E+01 seconds is: 1.3527E-01 % MHDEQ: TG1= 16.780000 ; TG2= 16.800000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8100E-03 SECONDS DATA R*BT AT EDGE: 7.3795E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3527E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.780000 TO TG2= 16.800000 @ NSTEP 137 GFRAME TG2 MOMENTS CHECKSUM: 1.3070962382190D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.65261E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.12073E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.592E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.435E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.801E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.88263400000005 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9472E+00 3.8839E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.5 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.46272657971615 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.37163763016698 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.45947674405199 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 140 TA= 1.68000E+01 CPU TIME= 2.01226E+00 SECONDS. DT= 7.20822E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.471141111111137 %check_save_state: izleft hours = 79.4619444444444 --> plasma_hash("gframe"): TA= 1.680000E+01 NSTEP= 140 Hash code: 103906942 ->PRGCHK: bdy curvature ratio at t= 1.6820E+01 seconds is: 1.3736E-01 % MHDEQ: TG1= 16.800000 ; TG2= 16.820000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6390E-03 SECONDS DATA R*BT AT EDGE: 7.3782E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3736E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.800000 TO TG2= 16.820000 @ NSTEP 140 GFRAME TG2 MOMENTS CHECKSUM: 1.3074849627776D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.65565E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.09841E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.591E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.424E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.770E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.67159600000014 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9463E+00 3.8835E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.00863511742515 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.37997978828295 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 143 TA= 1.68200E+01 CPU TIME= 1.91712E+00 SECONDS. DT= 4.72688E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.481428888889013 %check_save_state: izleft hours = 79.4516666666667 --> plasma_hash("gframe"): TA= 1.682000E+01 NSTEP= 143 Hash code: 100597551 ->PRGCHK: bdy curvature ratio at t= 1.6840E+01 seconds is: 1.3923E-01 % MHDEQ: TG1= 16.820000 ; TG2= 16.840000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6950E-03 SECONDS DATA R*BT AT EDGE: 7.3791E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3923E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.820000 TO TG2= 16.840000 @ NSTEP 143 GFRAME TG2 MOMENTS CHECKSUM: 1.3079109597880D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.55460E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.95002E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.591E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.417E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.753E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.65966499999990 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9465E+00 3.8847E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 9.74181874239287 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.53983208843373 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 147 TA= 1.68400E+01 CPU TIME= 2.05430E+00 SECONDS. DT= 2.47347E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.491491666666434 %check_save_state: izleft hours = 79.4416666666667 --> plasma_hash("gframe"): TA= 1.684000E+01 NSTEP= 147 Hash code: 80683863 ->PRGCHK: bdy curvature ratio at t= 1.6860E+01 seconds is: 1.5190E-01 % MHDEQ: TG1= 16.840000 ; TG2= 16.860000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8120E-03 SECONDS DATA R*BT AT EDGE: 7.3820E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5190E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.840000 TO TG2= 16.860000 @ NSTEP 147 GFRAME TG2 MOMENTS CHECKSUM: 1.3073165812724D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.60309E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.99127E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.406E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.722E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.89000499999997 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9477E+00 3.8890E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.2 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.5 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.2 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.47075840965048 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.83753627123304 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.73508525861796 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.53079206880920 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.15014276439374 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8689 f( 91, 4)= -1.001D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8700 f( 91, 4)= -1.004D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8711 f( 91, 4)= -1.007D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8722 f( 91, 4)= -1.009D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8733 f( 91, 4)= -1.011D-20 FPPRF: # of f < 0 errors = 5 on shell # 13 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.406E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.722E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8744 f( 91, 4)= -1.013D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8756 f( 91, 4)= -1.015D-20 %fp_imp warning: RF renorm adjust = 2.09716651587039 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8744 f( 91, 4)= -1.013D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8756 f( 91, 4)= -1.015D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8767 f( 91, 4)= -1.016D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8778 f( 91, 4)= -1.018D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8789 f( 91, 4)= -1.019D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8800 f( 91, 4)= -1.020D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 152 TA= 1.68600E+01 CPU TIME= 2.00712E+00 SECONDS. DT= 7.17363E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 0.506422222222454 %check_save_state: izleft hours = 79.4266666666667 %wrstf: start call wrstf. %wrstf: open new restart file:101185V10RS.DAT %wrstf: open101185V10RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6860000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.987E+03 MB. --> plasma_hash("gframe"): TA= 1.686000E+01 NSTEP= 152 Hash code: 96390345 ->PRGCHK: bdy curvature ratio at t= 1.6880E+01 seconds is: 1.6469E-01 % MHDEQ: TG1= 16.860000 ; TG2= 16.880000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.9560E-03 SECONDS DATA R*BT AT EDGE: 7.3803E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6469E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.860000 TO TG2= 16.880000 @ NSTEP 152 GFRAME TG2 MOMENTS CHECKSUM: 1.3063429305045D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.77048E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.05908E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.389E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.674E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.75978700000019 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9483E+00 3.8898E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.2 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.6 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.2 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8817 f( 91, 4)= -1.592D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8833 f( 91, 4)= -1.595D-20 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.06361544210459 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8817 f( 91, 4)= -1.592D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8833 f( 91, 4)= -1.595D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8850 f( 91, 4)= -1.597D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8867 f( 91, 4)= -1.599D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8883 f( 91, 4)= -1.600D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8900 f( 91, 4)= -1.601D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.17823228200960 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.06241405198630 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8917 f( 91, 4)= -1.601D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8933 f( 91, 4)= -1.600D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8950 f( 91, 4)= -1.599D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8967 f( 91, 4)= -1.598D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.8983 f( 91, 4)= -1.596D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9000 f( 91, 4)= -1.594D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 155 TA= 1.68800E+01 CPU TIME= 1.92047E+00 SECONDS. DT= 7.07418E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.516893333333655 %check_save_state: izleft hours = 79.4163888888889 --> plasma_hash("gframe"): TA= 1.688000E+01 NSTEP= 155 Hash code: 14082540 ->PRGCHK: bdy curvature ratio at t= 1.6900E+01 seconds is: 1.6650E-01 % MHDEQ: TG1= 16.880000 ; TG2= 16.900000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6620E-03 SECONDS DATA R*BT AT EDGE: 7.3815E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6650E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.880000 TO TG2= 16.900000 @ NSTEP 155 GFRAME TG2 MOMENTS CHECKSUM: 1.3061845585553D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.94176E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.19267E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.587E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.366E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.612E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.74472199999991 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9483E+00 3.8912E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.3 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.3 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.3 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.6 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.3 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9017 f( 91, 4)= -1.045D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9033 f( 91, 4)= -1.039D-20 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9017 f( 91, 4)= -1.045D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9033 f( 91, 4)= -1.039D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9050 f( 91, 4)= -1.034D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9067 f( 91, 4)= -1.028D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9083 f( 91, 4)= -1.023D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9100 f( 91, 4)= -1.018D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: RF renorm adjust = 7.19856553858095 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.66277313971855 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 4.40327070054101 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9117 f( 91, 4)= -1.013D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9133 f( 91, 4)= -1.008D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 16.9150 f( 91, 4)= -1.004D-20 FPPRF: # of f < 0 errors = 3 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 158 TA= 1.69000E+01 CPU TIME= 2.05101E+00 SECONDS. DT= 5.10387E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.527135000000271 %check_save_state: izleft hours = 79.4061111111111 --> plasma_hash("gframe"): TA= 1.690000E+01 NSTEP= 158 Hash code: 82175615 ->PRGCHK: bdy curvature ratio at t= 1.6920E+01 seconds is: 1.6278E-01 % MHDEQ: TG1= 16.900000 ; TG2= 16.920000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8390E-03 SECONDS DATA R*BT AT EDGE: 7.3855E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6278E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.900000 TO TG2= 16.920000 @ NSTEP 158 GFRAME TG2 MOMENTS CHECKSUM: 1.3060669462141D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.92611E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.17065E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.585E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.341E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.546E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.86497999999983 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9497E+00 3.8952E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.6 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 238.0 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.6 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.8 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 8.06847828308634 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.21112346457943 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 8.34640951254695 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.35219793910468 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 162 TA= 1.69200E+01 CPU TIME= 1.91379E+00 SECONDS. DT= 6.76869E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.537457222222201 %check_save_state: izleft hours = 79.3958333333333 --> plasma_hash("gframe"): TA= 1.692000E+01 NSTEP= 162 Hash code: 3940366 ->PRGCHK: bdy curvature ratio at t= 1.6940E+01 seconds is: 1.5872E-01 % MHDEQ: TG1= 16.920000 ; TG2= 16.940000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8430E-03 SECONDS DATA R*BT AT EDGE: 7.3797E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5872E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.920000 TO TG2= 16.940000 @ NSTEP 162 GFRAME TG2 MOMENTS CHECKSUM: 1.3048030266520D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.75356E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.02113E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.583E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.316E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.479E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.91974199999981 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9488E+00 3.8891E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.2 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.5 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.2 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.36131974836090 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 4.15114419470830 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.05576503194981 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.29685798893023 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.28290744404465 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 4.40920986943522 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.12169632319919 at nshe,nfasti = 7 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.47145868584120 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 4.52310892584076 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.15592886876024 at nshe,nfasti = 7 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 172 TA= 1.69400E+01 CPU TIME= 1.97488E+00 SECONDS. DT= 3.16900E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.548135277777874 %check_save_state: izleft hours = 79.3850000000000 --> plasma_hash("gframe"): TA= 1.694000E+01 NSTEP= 172 Hash code: 65011508 ->PRGCHK: bdy curvature ratio at t= 1.6960E+01 seconds is: 1.5171E-01 % MHDEQ: TG1= 16.940000 ; TG2= 16.960000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8110E-03 SECONDS DATA R*BT AT EDGE: 7.3787E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5171E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.940000 TO TG2= 16.960000 @ NSTEP 172 GFRAME TG2 MOMENTS CHECKSUM: 1.3050118526906D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.73593E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.00487E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.581E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.296E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.430E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.64847099999997 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9490E+00 3.8880E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.2 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.6 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.2 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89274000602137 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.87835294875974 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.98712893629043 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 3.21692138681587 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 177 TA= 1.69600E+01 CPU TIME= 1.94184E+00 SECONDS. DT= 2.16091E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.558763333333673 %check_save_state: izleft hours = 79.3744444444444 --> plasma_hash("gframe"): TA= 1.696000E+01 NSTEP= 177 Hash code: 16229135 ->PRGCHK: bdy curvature ratio at t= 1.6980E+01 seconds is: 1.4489E-01 % MHDEQ: TG1= 16.960000 ; TG2= 16.980000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6510E-03 SECONDS DATA R*BT AT EDGE: 7.3828E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4489E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.960000 TO TG2= 16.980000 @ NSTEP 177 GFRAME TG2 MOMENTS CHECKSUM: 1.3064324601760D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.74578E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.00846E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.579E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.279E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.385E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.65666699999997 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9497E+00 3.8917E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.3 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.3 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.3 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.3 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 183 TA= 1.69800E+01 CPU TIME= 2.05436E+00 SECONDS. DT= 2.83169E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.569198611111005 %check_save_state: izleft hours = 79.3638888888889 --> plasma_hash("gframe"): TA= 1.698000E+01 NSTEP= 183 Hash code: 86092857 ->PRGCHK: bdy curvature ratio at t= 1.7000E+01 seconds is: 1.4121E-01 % MHDEQ: TG1= 16.980000 ; TG2= 17.000000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8330E-03 SECONDS DATA R*BT AT EDGE: 7.3794E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4121E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 16.980000 TO TG2= 17.000000 @ NSTEP 183 GFRAME TG2 MOMENTS CHECKSUM: 1.3052974900187D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.78294E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.03289E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.287E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.406E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.92441399999984 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9481E+00 3.8883E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.2 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.5 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.2 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.67476010527607 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.44900521723246 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 188 TA= 1.70000E+01 CPU TIME= 1.96431E+00 SECONDS. DT= 4.59191E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.579621111111464 %check_save_state: izleft hours = 79.3536111111111 --> plasma_hash("gframe"): TA= 1.700000E+01 NSTEP= 188 Hash code: 59418657 ->PRGCHK: bdy curvature ratio at t= 1.7020E+01 seconds is: 1.4493E-01 % MHDEQ: TG1= 17.000000 ; TG2= 17.020000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6250E-03 SECONDS DATA R*BT AT EDGE: 7.3778E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4493E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.000000 TO TG2= 17.020000 @ NSTEP 188 GFRAME TG2 MOMENTS CHECKSUM: 1.3038819427088D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.78359E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.04708E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.583E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.325E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.504E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.89423399999987 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9482E+00 3.8874E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.0 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.0 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0233 f( 91, 4)= -1.864D-20 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.45878564474334 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0217 f( 74, 18)= -5.333D-01 f<0 at time= 17.0217 f( 74, 20)= -7.389D+00 f<0 at time= 17.0217 f( 75, 20)= -7.378D+00 f<0 at time= 17.0217 f( 74, 21)= -2.578D-01 f<0 at time= 17.0217 f( 74, 30)= -2.578D-01 f<0 at time= 17.0217 f( 74, 31)= -7.389D+00 f<0 at time= 17.0217 f( 75, 31)= -7.378D+00 f<0 at time= 17.0217 f( 74, 33)= -5.348D-01 %fp_imp warning: RF renorm adjust = 4.34537361465215 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0233 f( 74, 20)= -1.705D-01 f<0 at time= 17.0233 f( 75, 20)= -1.702D-01 f<0 at time= 17.0233 f( 74, 31)= -1.705D-01 f<0 at time= 17.0233 f( 75, 31)= -1.702D-01 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 FPPRF: # of f < 0 errors = 12 on shell # 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0233 f( 91, 4)= -1.864D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0250 f( 91, 4)= -1.913D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0267 f( 91, 4)= -1.933D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0283 f( 91, 4)= -1.951D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0300 f( 91, 4)= -1.967D-20 FPPRF: # of f < 0 errors = 5 on shell # 13 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.47286543078874 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0317 f( 74, 18)= -1.536D+00 f<0 at time= 17.0317 f( 68, 19)= -1.156D+00 f<0 at time= 17.0317 f( 69, 19)= -1.175D+00 f<0 at time= 17.0317 f( 70, 19)= -1.209D+00 f<0 at time= 17.0317 f( 71, 19)= -1.277D+00 f<0 at time= 17.0317 f( 72, 19)= -1.366D+00 f<0 at time= 17.0317 f( 73, 19)= -1.378D+00 f<0 at time= 17.0317 f( 74, 19)= -1.392D+00 f<0 at time= 17.0317 f( 75, 19)= -1.388D+00 f<0 at time= 17.0317 f( 74, 20)= -1.153D+01 f<0 at time= 17.0317 f( 75, 20)= -1.151D+01 f<0 at time= 17.0317 f( 74, 21)= -1.293D+00 f<0 at time= 17.0317 f( 74, 30)= -1.293D+00 f<0 at time= 17.0317 f( 74, 31)= -1.153D+01 f<0 at time= 17.0317 f( 75, 31)= -1.151D+01 f<0 at time= 17.0317 f( 68, 32)= -1.137D+00 f<0 at time= 17.0317 f( 69, 32)= -1.156D+00 f<0 at time= 17.0317 f( 70, 32)= -1.190D+00 f<0 at time= 17.0317 f( 71, 32)= -1.259D+00 f<0 at time= 17.0317 f( 72, 32)= -1.348D+00 f<0 at time= 17.0317 f( 73, 32)= -1.359D+00 f<0 at time= 17.0317 f( 74, 32)= -1.373D+00 f<0 at time= 17.0317 f( 75, 32)= -1.369D+00 f<0 at time= 17.0317 f( 74, 33)= -1.551D+00 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 FPPRF: # of f < 0 errors = 24 on shell # 3 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 192 TA= 1.70200E+01 CPU TIME= 1.92827E+00 SECONDS. DT= 3.11669E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.589998611111014 %check_save_state: izleft hours = 79.3433333333333 --> plasma_hash("gframe"): TA= 1.702000E+01 NSTEP= 192 Hash code: 503513 ->PRGCHK: bdy curvature ratio at t= 1.7040E+01 seconds is: 1.3943E-01 % MHDEQ: TG1= 17.020000 ; TG2= 17.040000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6810E-03 SECONDS DATA R*BT AT EDGE: 7.3781E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3943E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.020000 TO TG2= 17.040000 @ NSTEP 192 GFRAME TG2 MOMENTS CHECKSUM: 1.3052367887343D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.66569E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.97919E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.587E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.362E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.600E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.76888000000008 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9501E+00 3.8874E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.2 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.5 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.2 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0412 f( 74, 20)= -3.659D-01 f<0 at time= 17.0412 f( 75, 20)= -3.655D-01 f<0 at time= 17.0412 f( 74, 31)= -3.659D-01 f<0 at time= 17.0412 f( 75, 31)= -3.655D-01 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0425 f( 74, 20)= -3.038D-01 f<0 at time= 17.0425 f( 75, 20)= -3.034D-01 f<0 at time= 17.0425 f( 74, 31)= -3.038D-01 f<0 at time= 17.0425 f( 75, 31)= -3.034D-01 %fp_imp warning: RF renorm adjust = 7.54992402816085 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0412 f( 74, 20)= -1.166D-01 f<0 at time= 17.0412 f( 75, 20)= -1.163D-01 f<0 at time= 17.0412 f( 74, 31)= -1.166D-01 f<0 at time= 17.0412 f( 75, 31)= -1.163D-01 FPPRF: # of f < 0 errors = 4 on shell # 3 %fp_imp warning: RF renorm adjust = 8.36587066721113 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0517 f( 91, 4)= -1.435D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0533 f( 91, 4)= -1.443D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0550 f( 91, 4)= -1.450D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0567 f( 91, 4)= -1.457D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0583 f( 91, 4)= -1.464D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0600 f( 91, 4)= -1.471D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 197 TA= 1.70400E+01 CPU TIME= 2.07775E+00 SECONDS. DT= 2.53788E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.600345555555805 %check_save_state: izleft hours = 79.3327777777778 --> plasma_hash("gframe"): TA= 1.704000E+01 NSTEP= 197 Hash code: 11999773 ->PRGCHK: bdy curvature ratio at t= 1.7060E+01 seconds is: 1.5080E-01 % MHDEQ: TG1= 17.040000 ; TG2= 17.060000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8360E-03 SECONDS DATA R*BT AT EDGE: 7.3800E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5080E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.040000 TO TG2= 17.060000 @ NSTEP 197 GFRAME TG2 MOMENTS CHECKSUM: 1.3050228168264D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.83458E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.07784E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.587E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.367E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.614E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.62665700000025 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9500E+00 3.8887E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.7 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0617 f( 91, 4)= -1.862D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0633 f( 91, 4)= -1.867D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0617 f( 91, 4)= -1.862D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0633 f( 91, 4)= -1.867D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0650 f( 91, 4)= -1.871D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0667 f( 91, 4)= -1.874D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0683 f( 91, 4)= -1.876D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0700 f( 91, 4)= -1.878D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0717 f( 91, 4)= -1.879D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0733 f( 91, 4)= -1.880D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0750 f( 91, 4)= -1.880D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0767 f( 91, 4)= -1.879D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0783 f( 90, 3)= -8.551D-20 f<0 at time= 17.0783 f( 91, 4)= -1.878D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0800 f( 90, 3)= -1.078D-19 f<0 at time= 17.0800 f( 91, 4)= -1.877D-20 FPPRF: # of f < 0 errors = 8 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 202 TA= 1.70600E+01 CPU TIME= 2.01134E+00 SECONDS. DT= 6.70940E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.610695833333693 %check_save_state: izleft hours = 79.3225000000000 --> plasma_hash("gframe"): TA= 1.706000E+01 NSTEP= 202 Hash code: 50702296 ->PRGCHK: bdy curvature ratio at t= 1.7080E+01 seconds is: 1.4845E-01 % MHDEQ: TG1= 17.060000 ; TG2= 17.080000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8270E-03 SECONDS DATA R*BT AT EDGE: 7.3836E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4845E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.060000 TO TG2= 17.080000 @ NSTEP 202 GFRAME TG2 MOMENTS CHECKSUM: 1.3057806064857D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.80191E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.04001E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.386E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.664E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.89100199999984 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9498E+00 3.8913E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.8 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0817 f( 90, 3)= -7.024D-20 f<0 at time= 17.0817 f( 91, 4)= -1.673D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0833 f( 90, 3)= -7.256D-20 f<0 at time= 17.0833 f( 91, 4)= -1.673D-20 %fp_imp warning: RF renorm adjust = 0.498990563069234 at nshe,nfasti = 2 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0817 f( 90, 3)= -7.024D-20 f<0 at time= 17.0817 f( 91, 4)= -1.673D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0833 f( 90, 3)= -7.256D-20 f<0 at time= 17.0833 f( 91, 4)= -1.673D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0850 f( 90, 3)= -7.485D-20 f<0 at time= 17.0850 f( 91, 4)= -1.674D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0867 f( 90, 3)= -7.709D-20 f<0 at time= 17.0867 f( 91, 4)= -1.675D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0883 f( 90, 3)= -7.930D-20 f<0 at time= 17.0883 f( 91, 4)= -1.675D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0900 f( 90, 3)= -8.147D-20 f<0 at time= 17.0900 f( 91, 4)= -1.675D-20 FPPRF: # of f < 0 errors = 12 on shell # 13 %fp_imp warning: RF renorm adjust = 0.495383381128563 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 0.388865397828479 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.00376982979760 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0917 f( 90, 3)= -8.360D-20 f<0 at time= 17.0917 f( 91, 4)= -1.675D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0933 f( 90, 3)= -8.569D-20 f<0 at time= 17.0933 f( 91, 4)= -1.675D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0950 f( 90, 3)= -8.775D-20 f<0 at time= 17.0950 f( 91, 4)= -1.675D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0967 f( 90, 3)= -8.976D-20 f<0 at time= 17.0967 f( 91, 4)= -1.675D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.0983 f( 90, 3)= -9.174D-20 f<0 at time= 17.0983 f( 91, 4)= -1.674D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1000 f( 90, 3)= -9.368D-20 f<0 at time= 17.1000 f( 91, 4)= -1.673D-20 FPPRF: # of f < 0 errors = 12 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 205 TA= 1.70800E+01 CPU TIME= 2.01340E+00 SECONDS. DT= 6.12981E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.621373888889366 %check_save_state: izleft hours = 79.3119444444444 --> plasma_hash("gframe"): TA= 1.708000E+01 NSTEP= 205 Hash code: 77794006 ->PRGCHK: bdy curvature ratio at t= 1.7100E+01 seconds is: 1.4770E-01 % MHDEQ: TG1= 17.080000 ; TG2= 17.100000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 4.0290E-03 SECONDS DATA R*BT AT EDGE: 7.3890E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4770E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.080000 TO TG2= 17.100000 @ NSTEP 205 GFRAME TG2 MOMENTS CHECKSUM: 1.3075834483335D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.78847E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.06604E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.390E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.676E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.66578200000004 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9515E+00 3.8955E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.6 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.6 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.6 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.8 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 238.1 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.8 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.9 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 328.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.6 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1011 f( 90, 3)= -5.133D-20 f<0 at time= 17.1011 f( 91, 4)= -1.082D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1022 f( 90, 3)= -5.175D-20 f<0 at time= 17.1022 f( 91, 4)= -1.081D-20 %fp_imp warning: RF renorm adjust = 2.02559451088673 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.462167218092033 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.492911521683724 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1011 f( 90, 3)= -5.133D-20 f<0 at time= 17.1011 f( 91, 4)= -1.082D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1022 f( 90, 3)= -5.175D-20 f<0 at time= 17.1022 f( 91, 4)= -1.081D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1033 f( 90, 3)= -5.215D-20 f<0 at time= 17.1033 f( 91, 4)= -1.080D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1044 f( 90, 3)= -5.255D-20 f<0 at time= 17.1044 f( 91, 4)= -1.078D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1056 f( 90, 3)= -5.293D-20 f<0 at time= 17.1056 f( 91, 4)= -1.077D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1067 f( 90, 3)= -5.331D-20 f<0 at time= 17.1067 f( 91, 4)= -1.076D-20 FPPRF: # of f < 0 errors = 12 on shell # 13 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.21682318858358 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.496452252035506 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.12475385254414 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.492678485052632 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1078 f( 90, 3)= -5.368D-20 f<0 at time= 17.1078 f( 91, 4)= -1.075D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1089 f( 90, 3)= -5.405D-20 f<0 at time= 17.1089 f( 91, 4)= -1.073D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1100 f( 90, 3)= -5.440D-20 f<0 at time= 17.1100 f( 91, 4)= -1.072D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1111 f( 90, 3)= -5.475D-20 f<0 at time= 17.1111 f( 91, 4)= -1.071D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1122 f( 90, 3)= -5.509D-20 f<0 at time= 17.1122 f( 91, 4)= -1.069D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1133 f( 90, 3)= -5.543D-20 f<0 at time= 17.1133 f( 91, 4)= -1.068D-20 FPPRF: # of f < 0 errors = 12 on shell # 13 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.27461414408485 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.05762199427359 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.468690778959828 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1144 f( 90, 3)= -5.575D-20 f<0 at time= 17.1144 f( 91, 4)= -1.067D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1156 f( 90, 3)= -5.607D-20 f<0 at time= 17.1156 f( 91, 4)= -1.066D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1167 f( 90, 3)= -5.638D-20 f<0 at time= 17.1167 f( 91, 4)= -1.064D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1178 f( 90, 3)= -5.668D-20 f<0 at time= 17.1178 f( 91, 4)= -1.063D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1189 f( 90, 3)= -5.698D-20 f<0 at time= 17.1189 f( 91, 4)= -1.062D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1200 f( 90, 3)= -5.727D-20 f<0 at time= 17.1200 f( 91, 4)= -1.060D-20 FPPRF: # of f < 0 errors = 12 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 208 TA= 1.71000E+01 CPU TIME= 1.91451E+00 SECONDS. DT= 7.75991E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.632201111111044 %check_save_state: izleft hours = 79.3011111111111 --> plasma_hash("gframe"): TA= 1.710000E+01 NSTEP= 208 Hash code: 53170807 ->PRGCHK: bdy curvature ratio at t= 1.7120E+01 seconds is: 1.5658E-01 % MHDEQ: TG1= 17.100000 ; TG2= 17.120000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6910E-03 SECONDS DATA R*BT AT EDGE: 7.3813E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5658E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.100000 TO TG2= 17.120000 @ NSTEP 208 GFRAME TG2 MOMENTS CHECKSUM: 1.3073390219037D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.72158E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.99732E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.381E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.652E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.72382800000014 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9489E+00 3.8911E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.4 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.4 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.7 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.4 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1211 f( 90, 3)= -3.925D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1222 f( 90, 3)= -3.907D-20 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 3.511417998653632E-002 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1239 f( 68, 19)= -1.838D+01 f<0 at time= 17.1239 f( 69, 19)= -1.839D+01 f<0 at time= 17.1239 f( 70, 19)= -1.839D+01 f<0 at time= 17.1239 f( 71, 19)= -1.841D+01 f<0 at time= 17.1239 f( 72, 19)= -1.842D+01 f<0 at time= 17.1239 f( 73, 19)= -1.842D+01 f<0 at time= 17.1239 f( 74, 19)= -1.844D+01 f<0 at time= 17.1239 f( 75, 19)= -1.843D+01 f<0 at time= 17.1239 f( 74, 20)= -7.403D+01 f<0 at time= 17.1239 f( 75, 20)= -7.402D+01 f<0 at time= 17.1239 f( 76, 20)= -3.099D-04 f<0 at time= 17.1239 f( 77, 20)= -2.848D-04 f<0 at time= 17.1239 f( 78, 20)= -2.441D-04 f<0 at time= 17.1239 f( 79, 20)= -2.082D-04 f<0 at time= 17.1239 f( 80, 20)= -1.739D-04 f<0 at time= 17.1239 f( 81, 20)= -1.422D-04 f<0 at time= 17.1239 f( 82, 20)= -1.145D-04 f<0 at time= 17.1239 f( 83, 20)= -9.192D-05 f<0 at time= 17.1239 f( 84, 20)= -7.397D-05 f<0 at time= 17.1239 f( 85, 20)= -5.989D-05 f<0 at time= 17.1239 f( 86, 20)= -4.883D-05 f<0 at time= 17.1239 f( 87, 20)= -4.008D-05 f<0 at time= 17.1239 f( 88, 20)= -3.306D-05 f<0 at time= 17.1239 f( 89, 20)= -2.735D-05 f<0 at time= 17.1239 f( 90, 20)= -2.265D-05 f<0 at time= 17.1239 f( 91, 20)= -1.873D-05 f<0 at time= 17.1239 f( 92, 20)= -1.542D-05 f<0 at time= 17.1239 f( 93, 20)= -1.259D-05 f<0 at time= 17.1239 f( 94, 20)= -1.016D-05 f<0 at time= 17.1239 f( 95, 20)= -8.033D-06 f<0 at time= 17.1239 f( 96, 20)= -6.179D-06 f<0 at time= 17.1239 f( 97, 20)= -4.631D-06 f<0 at time= 17.1239 f( 98, 20)= -3.102D-06 f<0 at time= 17.1239 f( 74, 31)= -7.403D+01 f<0 at time= 17.1239 f( 75, 31)= -7.402D+01 f<0 at time= 17.1239 f( 76, 31)= -3.099D-04 f<0 at time= 17.1239 f( 77, 31)= -2.848D-04 f<0 at time= 17.1239 f( 78, 31)= -2.441D-04 f<0 at time= 17.1239 f( 79, 31)= -2.082D-04 f<0 at time= 17.1239 f( 80, 31)= -1.739D-04 f<0 at time= 17.1239 f( 81, 31)= -1.422D-04 f<0 at time= 17.1239 f( 82, 31)= -1.145D-04 f<0 at time= 17.1239 f( 83, 31)= -9.192D-05 f<0 at time= 17.1239 f( 84, 31)= -7.397D-05 f<0 at time= 17.1239 f( 85, 31)= -5.989D-05 f<0 at time= 17.1239 f( 86, 31)= -4.883D-05 f<0 at time= 17.1239 f( 87, 31)= -4.008D-05 f<0 at time= 17.1239 f( 88, 31)= -3.306D-05 f<0 at time= 17.1239 f( 89, 31)= -2.735D-05 f<0 at time= 17.1239 f( 90, 31)= -2.265D-05 f<0 at time= 17.1239 f( 91, 31)= -1.873D-05 f<0 at time= 17.1239 f( 92, 31)= -1.542D-05 f<0 at time= 17.1239 f( 93, 31)= -1.259D-05 f<0 at time= 17.1239 f( 94, 31)= -1.016D-05 f<0 at time= 17.1239 f( 95, 31)= -8.033D-06 f<0 at time= 17.1239 f( 96, 31)= -6.179D-06 f<0 at time= 17.1239 f( 97, 31)= -4.631D-06 f<0 at time= 17.1239 f( 98, 31)= -3.102D-06 f<0 at time= 17.1239 f( 68, 32)= -1.836D+01 f<0 at time= 17.1239 f( 69, 32)= -1.837D+01 f<0 at time= 17.1239 f( 70, 32)= -1.838D+01 f<0 at time= 17.1239 f( 71, 32)= -1.839D+01 f<0 at time= 17.1239 f( 72, 32)= -1.840D+01 f<0 at time= 17.1239 f( 73, 32)= -1.841D+01 f<0 at time= 17.1239 f( 74, 32)= -1.842D+01 f<0 at time= 17.1239 f( 75, 32)= -1.841D+01 f<0 at time= 17.1239 f( 76, 32)= -7.756D-05 %fp_imp warning: RF renorm adjust = 6.514140267151736E-002 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -8.567416898577075E-002 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -0.686808490235923 at nshe,nfasti = 3 6 FPPRF: # of f < 0 errors = 67 on shell # 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1211 f( 90, 3)= -3.925D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1222 f( 90, 3)= -3.907D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1233 f( 90, 3)= -3.889D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1244 f( 90, 3)= -3.872D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1256 f( 90, 3)= -3.854D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1267 f( 90, 3)= -3.836D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: RF renorm adjust = 2.47646393793161 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.71055930873931 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -4.40924544715004 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -3.99558979416855 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1278 f( 90, 3)= -3.819D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1289 f( 90, 3)= -3.801D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1300 f( 90, 3)= -3.783D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1311 f( 90, 3)= -3.766D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1322 f( 90, 3)= -3.748D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1333 f( 90, 3)= -3.730D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.381E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.652E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1344 f( 90, 3)= -3.713D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1356 f( 90, 3)= -3.695D-20 %fp_imp warning: RF renorm adjust = -3.08303412951389 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -5.06829015228023 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -7.20947206183554 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -12.2263173563173 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -21.0520578956917 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -31.3590530458095 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -69.4930346492504 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -185.157243903661 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -621.672578320689 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -3912.85400935422 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 7979.82091795779 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 1666.00791461544 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 721.837186294869 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 535.548848980695 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 640.000000000000 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -123.497191830745 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -273.513483773491 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -994.347330917270 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -13159.0121133375 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5120.00000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2560.00000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 1280.00000000000 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1344 f( 90, 3)= -3.713D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1356 f( 90, 3)= -3.695D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1367 f( 90, 3)= -3.678D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1378 f( 90, 3)= -3.660D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1389 f( 90, 3)= -3.643D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.1400 f( 90, 3)= -3.625D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 211 TA= 1.71200E+01 CPU TIME= 2.05105E+00 SECONDS. DT= 5.80264E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.648168888888904 %check_save_state: izleft hours = 79.2850000000000 --> plasma_hash("gframe"): TA= 1.712000E+01 NSTEP= 211 Hash code: 6060801 ->PRGCHK: bdy curvature ratio at t= 1.7140E+01 seconds is: 1.5830E-01 % MHDEQ: TG1= 17.120000 ; TG2= 17.140000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8140E-03 SECONDS DATA R*BT AT EDGE: 7.3776E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5830E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.120000 TO TG2= 17.140000 @ NSTEP 211 GFRAME TG2 MOMENTS CHECKSUM: 1.3075516924471D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.71352E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.95164E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.380E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.650E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.91490299999987 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9484E+00 3.8891E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.2 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.2 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.5 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.2 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.60635134134515 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.69365088644292 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.02995002595112 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.48428958843730 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.20303466557987 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.79855479591055 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.22220465368774 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.48278161399946 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.65784613260740 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.09565897984594 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 215 TA= 1.71400E+01 CPU TIME= 2.03209E+00 SECONDS. DT= 3.81295E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.658848333333708 %check_save_state: izleft hours = 79.2744444444444 --> plasma_hash("gframe"): TA= 1.714000E+01 NSTEP= 215 Hash code: 114612108 ->PRGCHK: bdy curvature ratio at t= 1.7160E+01 seconds is: 1.6863E-01 % MHDEQ: TG1= 17.140000 ; TG2= 17.160000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 4.0140E-03 SECONDS DATA R*BT AT EDGE: 7.3781E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6863E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.140000 TO TG2= 17.160000 @ NSTEP 215 GFRAME TG2 MOMENTS CHECKSUM: 1.3073557423204D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.70215E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.94498E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.392E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.682E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.67835100000002 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9475E+00 3.8883E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.0 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.3 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.0 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.80956586554337 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.08771808409586 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 219 TA= 1.71600E+01 CPU TIME= 1.92212E+00 SECONDS. DT= 6.82891E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.669495555555841 %check_save_state: izleft hours = 79.2636111111111 --> plasma_hash("gframe"): TA= 1.716000E+01 NSTEP= 219 Hash code: 67093834 ->PRGCHK: bdy curvature ratio at t= 1.7180E+01 seconds is: 1.4904E-01 % MHDEQ: TG1= 17.160000 ; TG2= 17.180000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6490E-03 SECONDS DATA R*BT AT EDGE: 7.3814E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4904E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.160000 TO TG2= 17.180000 @ NSTEP 219 GFRAME TG2 MOMENTS CHECKSUM: 1.3073326364759D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.89696E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.10838E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.404E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.715E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.63785700000017 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9477E+00 3.8894E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.4 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 222 TA= 1.71800E+01 CPU TIME= 2.05593E+00 SECONDS. DT= 5.79369E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.679973888888753 %check_save_state: izleft hours = 79.2533333333333 --> plasma_hash("gframe"): TA= 1.718000E+01 NSTEP= 222 Hash code: 46532203 ->PRGCHK: bdy curvature ratio at t= 1.7200E+01 seconds is: 1.5115E-01 % MHDEQ: TG1= 17.180000 ; TG2= 17.200000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8160E-03 SECONDS DATA R*BT AT EDGE: 7.3814E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5115E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.180000 TO TG2= 17.200000 @ NSTEP 222 GFRAME TG2 MOMENTS CHECKSUM: 1.3072166662071D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.07437E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.26190E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.407E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.724E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.83790399999998 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9483E+00 3.8888E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.3 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2017 f( 91, 4)= -1.121D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2033 f( 91, 4)= -1.130D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2017 f( 91, 4)= -1.121D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2033 f( 91, 4)= -1.130D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2050 f( 91, 4)= -1.138D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2067 f( 91, 4)= -1.146D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2083 f( 91, 4)= -1.154D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2100 f( 91, 4)= -1.162D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %fp_imp warning: RF renorm adjust = 2.88695403121571 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.03226203018313 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2117 f( 91, 4)= -1.169D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2133 f( 91, 4)= -1.176D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2150 f( 91, 4)= -1.183D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2167 f( 91, 4)= -1.190D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2183 f( 91, 4)= -1.196D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2200 f( 91, 4)= -1.203D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 225 TA= 1.72000E+01 CPU TIME= 2.04805E+00 SECONDS. DT= 8.70525E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.690375833333746 %check_save_state: izleft hours = 79.2427777777778 --> plasma_hash("gframe"): TA= 1.720000E+01 NSTEP= 225 Hash code: 50867074 ->PRGCHK: bdy curvature ratio at t= 1.7220E+01 seconds is: 1.5340E-01 % MHDEQ: TG1= 17.200000 ; TG2= 17.220000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8460E-03 SECONDS DATA R*BT AT EDGE: 7.3781E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5340E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.200000 TO TG2= 17.220000 @ NSTEP 225 GFRAME TG2 MOMENTS CHECKSUM: 1.3057537942369D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.11083E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.27291E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.590E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.408E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.727E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.90947200000028 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9477E+00 3.8874E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.9 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.0 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.0 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.9 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2233 f( 93, 5)= -1.133D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2217 f( 90, 2)= -1.078D-20 f<0 at time= 17.2217 f( 91, 4)= -2.296D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2233 f( 90, 2)= -1.085D-20 f<0 at time= 17.2233 f( 91, 4)= -2.294D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2217 f( 89, 3)= -1.867D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2233 f( 89, 3)= -1.904D-20 %fp_imp warning: RF renorm adjust = 6.07920174466501 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.37460782821871 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2233 f( 93, 5)= -1.133D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2250 f( 93, 5)= -1.370D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2267 f( 93, 5)= -1.464D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2283 f( 93, 5)= -1.559D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2300 f( 93, 5)= -1.654D-20 FPPRF: # of f < 0 errors = 5 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2217 f( 90, 2)= -1.078D-20 f<0 at time= 17.2217 f( 91, 4)= -2.296D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2233 f( 90, 2)= -1.085D-20 f<0 at time= 17.2233 f( 91, 4)= -2.294D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2250 f( 90, 2)= -1.091D-20 f<0 at time= 17.2250 f( 91, 4)= -2.291D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2267 f( 90, 2)= -1.096D-20 f<0 at time= 17.2267 f( 91, 4)= -2.286D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2283 f( 90, 2)= -1.101D-20 f<0 at time= 17.2283 f( 91, 4)= -2.280D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2300 f( 90, 2)= -1.105D-20 f<0 at time= 17.2300 f( 91, 4)= -2.271D-20 FPPRF: # of f < 0 errors = 12 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2217 f( 89, 3)= -1.867D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2233 f( 89, 3)= -1.904D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2250 f( 89, 3)= -1.938D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2267 f( 89, 3)= -1.969D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2283 f( 89, 3)= -1.998D-20 f<0 at time= 17.2283 f( 90, 5)= -1.466D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2300 f( 89, 3)= -2.025D-20 f<0 at time= 17.2300 f( 90, 5)= -1.976D-20 FPPRF: # of f < 0 errors = 8 on shell # 14 %fp_imp warning: RF renorm adjust = 7.11995385402393 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.43674433720814 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.81447153026333 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2317 f( 93, 5)= -1.749D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2333 f( 93, 5)= -1.845D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2350 f( 93, 5)= -1.941D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2367 f( 93, 5)= -2.036D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2383 f( 93, 5)= -2.132D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2400 f( 93, 5)= -2.228D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2317 f( 90, 2)= -1.109D-20 f<0 at time= 17.2317 f( 90, 3)= -1.574D-20 f<0 at time= 17.2317 f( 91, 4)= -2.258D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2333 f( 90, 2)= -1.111D-20 f<0 at time= 17.2333 f( 90, 3)= -1.903D-19 f<0 at time= 17.2333 f( 91, 4)= -2.237D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2350 f( 90, 2)= -1.091D-20 f<0 at time= 17.2350 f( 90, 3)= -1.961D-19 f<0 at time= 17.2350 f( 91, 4)= -2.203D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2367 f( 90, 2)= -1.071D-20 f<0 at time= 17.2367 f( 90, 3)= -2.017D-19 f<0 at time= 17.2367 f( 91, 4)= -2.142D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2383 f( 90, 2)= -1.051D-20 f<0 at time= 17.2383 f( 90, 3)= -2.072D-19 f<0 at time= 17.2383 f( 91, 4)= -2.037D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2400 f( 89, 1)= -1.860D-20 f<0 at time= 17.2400 f( 90, 2)= -1.031D-20 f<0 at time= 17.2400 f( 90, 3)= -2.125D-19 f<0 at time= 17.2400 f( 91, 4)= -1.857D-20 FPPRF: # of f < 0 errors = 19 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2317 f( 89, 3)= -2.049D-20 f<0 at time= 17.2317 f( 90, 5)= -1.971D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2333 f( 89, 3)= -2.071D-20 f<0 at time= 17.2333 f( 90, 5)= -1.964D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2350 f( 89, 3)= -2.091D-20 f<0 at time= 17.2350 f( 90, 5)= -1.955D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2367 f( 89, 3)= -2.109D-20 f<0 at time= 17.2367 f( 90, 5)= -1.944D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2383 f( 89, 3)= -2.125D-20 f<0 at time= 17.2383 f( 90, 5)= -1.932D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2400 f( 89, 3)= -2.138D-20 f<0 at time= 17.2400 f( 90, 5)= -1.918D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 228 TA= 1.72200E+01 CPU TIME= 2.00478E+00 SECONDS. DT= 3.99243E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.700624444444657 %check_save_state: izleft hours = 79.2325000000000 --> plasma_hash("gframe"): TA= 1.722000E+01 NSTEP= 228 Hash code: 98915822 ->PRGCHK: bdy curvature ratio at t= 1.7240E+01 seconds is: 1.5221E-01 % MHDEQ: TG1= 17.220000 ; TG2= 17.240000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6440E-03 SECONDS DATA R*BT AT EDGE: 7.3803E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5221E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.220000 TO TG2= 17.240000 @ NSTEP 228 GFRAME TG2 MOMENTS CHECKSUM: 1.3049627033082D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.90335E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.07385E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.591E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.419E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.756E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.85201699999971 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9500E+00 3.8890E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.9 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.9 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2411 f( 93, 5)= -1.304D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2422 f( 93, 5)= -1.335D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2411 f( 89, 1)= -1.033D-20 f<0 at time= 17.2411 f( 90, 3)= -1.205D-19 f<0 at time= 17.2411 f( 91, 4)= -1.044D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2422 f( 89, 1)= -1.062D-20 f<0 at time= 17.2422 f( 90, 3)= -1.223D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2411 f( 89, 3)= -1.329D-20 f<0 at time= 17.2411 f( 90, 5)= -1.118D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2422 f( 89, 3)= -1.334D-20 f<0 at time= 17.2422 f( 90, 5)= -1.115D-20 %fp_imp warning: RF renorm adjust = 8.11379493171856 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2411 f( 93, 5)= -1.304D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2422 f( 93, 5)= -1.335D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2433 f( 93, 5)= -1.366D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2444 f( 93, 5)= -1.397D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2456 f( 93, 5)= -1.427D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2467 f( 93, 5)= -1.458D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2411 f( 89, 1)= -1.033D-20 f<0 at time= 17.2411 f( 90, 3)= -1.205D-19 f<0 at time= 17.2411 f( 91, 4)= -1.044D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2422 f( 89, 1)= -1.062D-20 f<0 at time= 17.2422 f( 90, 3)= -1.223D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2433 f( 89, 1)= -1.091D-20 f<0 at time= 17.2433 f( 90, 3)= -1.240D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2444 f( 89, 1)= -1.119D-20 f<0 at time= 17.2444 f( 90, 3)= -1.257D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2456 f( 89, 1)= -1.148D-20 f<0 at time= 17.2456 f( 90, 3)= -1.273D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2467 f( 89, 1)= -1.176D-20 f<0 at time= 17.2467 f( 90, 3)= -1.288D-19 FPPRF: # of f < 0 errors = 13 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2411 f( 89, 3)= -1.329D-20 f<0 at time= 17.2411 f( 90, 5)= -1.118D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2422 f( 89, 3)= -1.334D-20 f<0 at time= 17.2422 f( 90, 5)= -1.115D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2433 f( 89, 3)= -1.339D-20 f<0 at time= 17.2433 f( 90, 5)= -1.112D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2444 f( 89, 3)= -1.343D-20 f<0 at time= 17.2444 f( 90, 5)= -1.108D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2456 f( 89, 3)= -1.347D-20 f<0 at time= 17.2456 f( 90, 5)= -1.105D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2467 f( 89, 3)= -1.351D-20 f<0 at time= 17.2467 f( 90, 5)= -1.101D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 %fp_imp warning: RF renorm adjust = 8.31264356105606 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2478 f( 93, 5)= -1.488D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2489 f( 93, 5)= -1.518D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2500 f( 93, 5)= -1.548D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2511 f( 93, 5)= -1.578D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2522 f( 93, 5)= -1.607D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2533 f( 93, 5)= -1.636D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2478 f( 89, 1)= -1.204D-20 f<0 at time= 17.2478 f( 90, 3)= -1.302D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2489 f( 89, 1)= -1.232D-20 f<0 at time= 17.2489 f( 90, 3)= -1.314D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2500 f( 89, 1)= -1.260D-20 f<0 at time= 17.2500 f( 90, 3)= -1.325D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2511 f( 89, 1)= -1.288D-20 f<0 at time= 17.2511 f( 90, 3)= -1.335D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2522 f( 89, 1)= -1.316D-20 f<0 at time= 17.2522 f( 90, 3)= -1.342D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2533 f( 89, 1)= -1.344D-20 f<0 at time= 17.2533 f( 90, 3)= -1.347D-19 FPPRF: # of f < 0 errors = 12 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2478 f( 89, 3)= -1.355D-20 f<0 at time= 17.2478 f( 90, 5)= -1.097D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2489 f( 89, 3)= -1.358D-20 f<0 at time= 17.2489 f( 90, 5)= -1.093D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2500 f( 89, 3)= -1.361D-20 f<0 at time= 17.2500 f( 90, 5)= -1.088D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2511 f( 89, 3)= -1.363D-20 f<0 at time= 17.2511 f( 90, 5)= -1.083D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2522 f( 89, 3)= -1.365D-20 f<0 at time= 17.2522 f( 90, 5)= -1.079D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2533 f( 89, 3)= -1.367D-20 f<0 at time= 17.2533 f( 90, 5)= -1.074D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 %fp_imp warning: RF renorm adjust = 8.71069772629665 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2544 f( 93, 5)= -1.666D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2556 f( 93, 5)= -1.694D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2567 f( 93, 5)= -1.723D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2578 f( 93, 5)= -1.751D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2589 f( 93, 5)= -1.779D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2600 f( 93, 5)= -1.807D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2544 f( 89, 1)= -1.371D-20 f<0 at time= 17.2544 f( 90, 3)= -1.349D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2556 f( 89, 1)= -1.398D-20 f<0 at time= 17.2556 f( 90, 3)= -1.347D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2567 f( 89, 1)= -1.426D-20 f<0 at time= 17.2567 f( 90, 3)= -1.340D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2578 f( 89, 1)= -1.453D-20 f<0 at time= 17.2578 f( 90, 3)= -1.328D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2589 f( 89, 1)= -1.480D-20 f<0 at time= 17.2589 f( 90, 3)= -1.310D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2600 f( 89, 1)= -1.507D-20 f<0 at time= 17.2600 f( 90, 3)= -1.285D-19 FPPRF: # of f < 0 errors = 12 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2544 f( 89, 3)= -1.368D-20 f<0 at time= 17.2544 f( 90, 5)= -1.069D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2556 f( 89, 3)= -1.370D-20 f<0 at time= 17.2556 f( 90, 5)= -1.063D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2567 f( 89, 3)= -1.370D-20 f<0 at time= 17.2567 f( 90, 5)= -1.058D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2578 f( 89, 3)= -1.371D-20 f<0 at time= 17.2578 f( 90, 5)= -1.053D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2589 f( 89, 3)= -1.371D-20 f<0 at time= 17.2589 f( 90, 5)= -1.047D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2600 f( 89, 3)= -1.372D-20 f<0 at time= 17.2600 f( 89, 4)= -4.841D-20 f<0 at time= 17.2600 f( 90, 5)= -1.041D-20 FPPRF: # of f < 0 errors = 13 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 232 TA= 1.72400E+01 CPU TIME= 1.96329E+00 SECONDS. DT= 5.97357E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.711415555555732 %check_save_state: izleft hours = 79.2216666666667 --> plasma_hash("gframe"): TA= 1.724000E+01 NSTEP= 232 Hash code: 71575650 ->PRGCHK: bdy curvature ratio at t= 1.7260E+01 seconds is: 1.4674E-01 % MHDEQ: TG1= 17.240000 ; TG2= 17.260000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7410E-03 SECONDS DATA R*BT AT EDGE: 7.3803E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4674E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.240000 TO TG2= 17.260000 @ NSTEP 232 GFRAME TG2 MOMENTS CHECKSUM: 1.3050207034879D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.89394E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.07788E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.592E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.430E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.786E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.72126500000013 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9507E+00 3.8877E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.9 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.9 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2611 f( 93, 5)= -1.405D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2622 f( 93, 5)= -1.416D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2611 f( 89, 1)= -1.188D-20 f<0 at time= 17.2611 f( 90, 3)= -9.461D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2622 f( 89, 1)= -1.204D-20 f<0 at time= 17.2622 f( 90, 3)= -8.948D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2611 f( 89, 3)= -1.235D-20 f<0 at time= 17.2611 f( 89, 4)= -7.332D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2622 f( 89, 3)= -1.224D-20 f<0 at time= 17.2622 f( 89, 4)= -7.485D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2611 f( 93, 5)= -1.405D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2622 f( 93, 5)= -1.416D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2633 f( 93, 5)= -1.427D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2644 f( 93, 5)= -1.437D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2656 f( 93, 5)= -1.448D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2667 f( 93, 5)= -1.458D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2611 f( 89, 1)= -1.188D-20 f<0 at time= 17.2611 f( 90, 3)= -9.461D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2622 f( 89, 1)= -1.204D-20 f<0 at time= 17.2622 f( 90, 3)= -8.948D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2633 f( 89, 1)= -1.220D-20 f<0 at time= 17.2633 f( 90, 3)= -8.313D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2644 f( 89, 1)= -1.235D-20 f<0 at time= 17.2644 f( 90, 3)= -7.536D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2656 f( 89, 1)= -1.251D-20 f<0 at time= 17.2656 f( 90, 3)= -6.595D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2667 f( 89, 1)= -1.266D-20 f<0 at time= 17.2667 f( 90, 3)= -5.462D-20 FPPRF: # of f < 0 errors = 12 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2611 f( 89, 3)= -1.235D-20 f<0 at time= 17.2611 f( 89, 4)= -7.332D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2622 f( 89, 3)= -1.224D-20 f<0 at time= 17.2622 f( 89, 4)= -7.485D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2633 f( 89, 3)= -1.214D-20 f<0 at time= 17.2633 f( 89, 4)= -7.635D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2644 f( 89, 3)= -1.203D-20 f<0 at time= 17.2644 f( 89, 4)= -7.781D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2656 f( 89, 3)= -1.192D-20 f<0 at time= 17.2656 f( 89, 4)= -7.924D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2667 f( 89, 3)= -1.182D-20 f<0 at time= 17.2667 f( 89, 4)= -8.064D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2678 f( 93, 5)= -1.468D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2689 f( 93, 5)= -1.477D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2700 f( 93, 5)= -1.487D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2711 f( 93, 5)= -1.496D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2722 f( 93, 5)= -1.505D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2733 f( 93, 5)= -1.513D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2678 f( 89, 1)= -1.281D-20 f<0 at time= 17.2678 f( 90, 3)= -4.109D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2689 f( 89, 1)= -1.296D-20 f<0 at time= 17.2689 f( 90, 3)= -2.502D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2700 f( 89, 1)= -1.311D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2711 f( 89, 1)= -1.326D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2722 f( 89, 1)= -1.340D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2733 f( 89, 1)= -1.355D-20 FPPRF: # of f < 0 errors = 8 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2678 f( 89, 3)= -1.172D-20 f<0 at time= 17.2678 f( 89, 4)= -8.201D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2689 f( 89, 3)= -1.161D-20 f<0 at time= 17.2689 f( 89, 4)= -8.334D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2700 f( 89, 3)= -1.151D-20 f<0 at time= 17.2700 f( 89, 4)= -8.465D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2711 f( 89, 3)= -1.142D-20 f<0 at time= 17.2711 f( 89, 4)= -8.592D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2722 f( 89, 3)= -1.132D-20 f<0 at time= 17.2722 f( 89, 4)= -8.717D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2733 f( 89, 3)= -1.122D-20 f<0 at time= 17.2733 f( 89, 4)= -8.839D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2744 f( 93, 5)= -1.522D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2756 f( 93, 5)= -1.530D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2767 f( 93, 5)= -1.538D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2778 f( 93, 5)= -1.545D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2789 f( 93, 5)= -1.552D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2800 f( 93, 5)= -1.559D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2744 f( 89, 1)= -1.369D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2756 f( 89, 1)= -1.383D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2767 f( 89, 1)= -1.396D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2778 f( 89, 1)= -1.410D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2789 f( 89, 1)= -1.423D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2800 f( 89, 1)= -1.436D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2744 f( 89, 3)= -1.113D-20 f<0 at time= 17.2744 f( 89, 4)= -8.958D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2756 f( 89, 3)= -1.104D-20 f<0 at time= 17.2756 f( 89, 4)= -9.074D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2767 f( 89, 3)= -1.094D-20 f<0 at time= 17.2767 f( 89, 4)= -9.188D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2778 f( 89, 3)= -1.085D-20 f<0 at time= 17.2778 f( 89, 4)= -9.299D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2789 f( 88, 2)= -2.566D-20 f<0 at time= 17.2789 f( 89, 3)= -1.076D-20 f<0 at time= 17.2789 f( 89, 4)= -9.408D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2800 f( 88, 2)= -2.797D-20 f<0 at time= 17.2800 f( 89, 3)= -1.068D-20 f<0 at time= 17.2800 f( 89, 4)= -9.514D-20 FPPRF: # of f < 0 errors = 14 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 235 TA= 1.72600E+01 CPU TIME= 1.91247E+00 SECONDS. DT= 8.19932E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.722046111111013 %check_save_state: izleft hours = 79.2111111111111 --> plasma_hash("gframe"): TA= 1.726000E+01 NSTEP= 235 Hash code: 122751110 ->PRGCHK: bdy curvature ratio at t= 1.7280E+01 seconds is: 1.4141E-01 % MHDEQ: TG1= 17.260000 ; TG2= 17.280000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6710E-03 SECONDS DATA R*BT AT EDGE: 7.3804E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4141E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.260000 TO TG2= 17.280000 @ NSTEP 235 GFRAME TG2 MOMENTS CHECKSUM: 1.3050787687994D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.63900E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.94254E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.593E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.438E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.808E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.66562499999964 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9505E+00 3.8858E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.0 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.1 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.0 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2817 f( 93, 5)= -1.951D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2833 f( 93, 5)= -1.951D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2817 f( 89, 1)= -1.672D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2833 f( 89, 1)= -1.679D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2817 f( 88, 2)= -1.779D-20 f<0 at time= 17.2817 f( 89, 3)= -1.375D-20 f<0 at time= 17.2817 f( 89, 4)= -6.152D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2833 f( 88, 2)= -1.843D-20 f<0 at time= 17.2833 f( 89, 3)= -1.374D-20 f<0 at time= 17.2833 f( 89, 4)= -6.104D-20 %fp_imp warning: RF renorm adjust = 8.34764353886351 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2817 f( 93, 5)= -1.951D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2833 f( 93, 5)= -1.951D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2850 f( 93, 5)= -1.950D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2867 f( 93, 5)= -1.949D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2883 f( 93, 5)= -1.947D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2900 f( 93, 5)= -1.945D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2817 f( 89, 1)= -1.672D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2833 f( 89, 1)= -1.679D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2850 f( 89, 1)= -1.684D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2867 f( 89, 1)= -1.687D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2883 f( 89, 1)= -1.688D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2900 f( 89, 1)= -1.688D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2817 f( 88, 2)= -1.779D-20 f<0 at time= 17.2817 f( 89, 3)= -1.375D-20 f<0 at time= 17.2817 f( 89, 4)= -6.152D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2833 f( 88, 2)= -1.843D-20 f<0 at time= 17.2833 f( 89, 3)= -1.374D-20 f<0 at time= 17.2833 f( 89, 4)= -6.104D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2850 f( 88, 2)= -1.906D-20 f<0 at time= 17.2850 f( 89, 3)= -1.373D-20 f<0 at time= 17.2850 f( 89, 4)= -6.057D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2867 f( 88, 2)= -1.967D-20 f<0 at time= 17.2867 f( 89, 3)= -1.372D-20 f<0 at time= 17.2867 f( 89, 4)= -6.012D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2883 f( 88, 2)= -2.026D-20 f<0 at time= 17.2883 f( 89, 3)= -1.372D-20 f<0 at time= 17.2883 f( 89, 4)= -5.968D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2900 f( 88, 2)= -2.083D-20 f<0 at time= 17.2900 f( 89, 3)= -1.372D-20 f<0 at time= 17.2900 f( 89, 4)= -5.925D-20 FPPRF: # of f < 0 errors = 18 on shell # 14 %fp_imp warning: RF renorm adjust = 9.22498586756318 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2917 f( 93, 5)= -1.942D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2933 f( 93, 5)= -1.938D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2950 f( 93, 5)= -1.934D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2967 f( 93, 5)= -1.929D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2983 f( 93, 5)= -1.924D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3000 f( 93, 5)= -1.918D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2917 f( 89, 1)= -1.684D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2933 f( 89, 1)= -1.677D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2950 f( 89, 1)= -1.666D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2967 f( 89, 1)= -1.651D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2983 f( 89, 1)= -1.630D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3000 f( 89, 1)= -1.604D-20 FPPRF: # of f < 0 errors = 6 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2917 f( 88, 2)= -2.138D-20 f<0 at time= 17.2917 f( 89, 3)= -1.371D-20 f<0 at time= 17.2917 f( 89, 4)= -5.883D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2933 f( 88, 2)= -2.192D-20 f<0 at time= 17.2933 f( 89, 3)= -1.371D-20 f<0 at time= 17.2933 f( 89, 4)= -5.843D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2950 f( 88, 2)= -2.243D-20 f<0 at time= 17.2950 f( 89, 3)= -1.371D-20 f<0 at time= 17.2950 f( 89, 4)= -5.803D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2967 f( 88, 2)= -2.292D-20 f<0 at time= 17.2967 f( 89, 3)= -1.372D-20 f<0 at time= 17.2967 f( 89, 4)= -5.765D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.2983 f( 88, 2)= -2.340D-20 f<0 at time= 17.2983 f( 89, 3)= -1.372D-20 f<0 at time= 17.2983 f( 89, 4)= -5.727D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3000 f( 88, 2)= -2.386D-20 f<0 at time= 17.3000 f( 89, 3)= -1.372D-20 f<0 at time= 17.3000 f( 89, 4)= -5.690D-20 FPPRF: # of f < 0 errors = 18 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 238 TA= 1.72800E+01 CPU TIME= 2.05580E+00 SECONDS. DT= 1.93941E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.732420555555564 %check_save_state: izleft hours = 79.2008333333333 --> plasma_hash("gframe"): TA= 1.728000E+01 NSTEP= 238 Hash code: 54757853 ->PRGCHK: bdy curvature ratio at t= 1.7300E+01 seconds is: 1.4986E-01 % MHDEQ: TG1= 17.280000 ; TG2= 17.300000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8030E-03 SECONDS DATA R*BT AT EDGE: 7.3818E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4986E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.280000 TO TG2= 17.300000 @ NSTEP 238 GFRAME TG2 MOMENTS CHECKSUM: 1.3050364356657D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.50668E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.87169E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.593E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.449E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.839E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.64091500000040 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9504E+00 3.8851E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.0 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.2 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.0 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3017 f( 93, 5)= -1.738D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3033 f( 93, 5)= -1.721D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3017 f( 89, 1)= -1.137D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3033 f( 89, 1)= -1.073D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3017 f( 89, 3)= -1.193D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3033 f( 89, 3)= -1.200D-20 %fp_imp warning: RF renorm adjust = 6.43292660029487 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3017 f( 93, 5)= -1.738D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3033 f( 93, 5)= -1.721D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3050 f( 93, 5)= -1.704D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3067 f( 93, 5)= -1.686D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3083 f( 93, 5)= -1.669D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3100 f( 93, 5)= -1.650D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3017 f( 89, 1)= -1.137D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3033 f( 89, 1)= -1.073D-20 FPPRF: # of f < 0 errors = 2 on shell # 13 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3017 f( 89, 3)= -1.193D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3033 f( 89, 3)= -1.200D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3050 f( 89, 3)= -1.206D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3067 f( 89, 3)= -1.212D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3083 f( 89, 3)= -1.217D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3100 f( 89, 3)= -1.222D-20 FPPRF: # of f < 0 errors = 6 on shell # 14 %fp_imp warning: RF renorm adjust = 5.40174836492416 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 0.493631969898191 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.72725489468146 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.30010183977652 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.10763611960901 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3117 f( 93, 5)= -1.632D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3133 f( 93, 5)= -1.613D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3150 f( 93, 5)= -1.593D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3167 f( 93, 5)= -1.574D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3183 f( 93, 5)= -1.554D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3200 f( 93, 5)= -1.534D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3117 f( 89, 3)= -1.226D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3133 f( 89, 3)= -1.230D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3150 f( 89, 3)= -1.234D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3167 f( 89, 3)= -1.237D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3183 f( 89, 3)= -1.239D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3200 f( 89, 3)= -1.242D-20 FPPRF: # of f < 0 errors = 6 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 244 TA= 1.73000E+01 CPU TIME= 2.02545E+00 SECONDS. DT= 5.10404E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.742509166666878 %check_save_state: izleft hours = 79.1908333333333 --> plasma_hash("gframe"): TA= 1.730000E+01 NSTEP= 244 Hash code: 80571289 ->PRGCHK: bdy curvature ratio at t= 1.7320E+01 seconds is: 1.4912E-01 % MHDEQ: TG1= 17.300000 ; TG2= 17.320000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8200E-03 SECONDS DATA R*BT AT EDGE: 7.3819E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4912E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.300000 TO TG2= 17.320000 @ NSTEP 244 GFRAME TG2 MOMENTS CHECKSUM: 1.3055112844163D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.55684E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.89482E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.595E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.473E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.904E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.89226499999995 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9498E+00 3.8842E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.1 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.1 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.5 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.5 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.2 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.1 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3217 f( 93, 5)= -1.769D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3233 f( 93, 5)= -1.754D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3217 f( 89, 3)= -1.184D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3233 f( 89, 3)= -1.182D-20 %fp_imp warning: RF renorm adjust = 4.70345439514458 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.66567583380766 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3217 f( 93, 5)= -1.769D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3233 f( 93, 5)= -1.754D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3250 f( 93, 5)= -1.739D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3267 f( 93, 5)= -1.723D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3283 f( 93, 5)= -1.707D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3300 f( 93, 5)= -1.691D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3217 f( 89, 3)= -1.184D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3233 f( 89, 3)= -1.182D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3250 f( 89, 3)= -1.179D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3267 f( 89, 3)= -1.176D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3283 f( 89, 3)= -1.173D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3300 f( 89, 3)= -1.170D-20 FPPRF: # of f < 0 errors = 6 on shell # 14 %fp_imp warning: RF renorm adjust = 5.49318963812938 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.75285310932615 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3317 f( 93, 5)= -1.673D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3333 f( 93, 5)= -1.656D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3350 f( 93, 5)= -1.638D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3367 f( 93, 5)= -1.619D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3383 f( 93, 5)= -1.600D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3400 f( 93, 5)= -1.581D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3317 f( 89, 3)= -1.167D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3333 f( 89, 3)= -1.163D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3350 f( 89, 3)= -1.159D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3367 f( 89, 3)= -1.155D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3383 f( 89, 3)= -1.151D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3400 f( 89, 3)= -1.147D-20 FPPRF: # of f < 0 errors = 6 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 248 TA= 1.73200E+01 CPU TIME= 1.93210E+00 SECONDS. DT= 6.24457E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.752746111111264 %check_save_state: izleft hours = 79.1805555555556 --> plasma_hash("gframe"): TA= 1.732000E+01 NSTEP= 248 Hash code: 97849840 ->PRGCHK: bdy curvature ratio at t= 1.7340E+01 seconds is: 1.4715E-01 % MHDEQ: TG1= 17.320000 ; TG2= 17.340000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6950E-03 SECONDS DATA R*BT AT EDGE: 7.3807E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4715E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.320000 TO TG2= 17.340000 @ NSTEP 248 GFRAME TG2 MOMENTS CHECKSUM: 1.3064309868512D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.51286E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.87453E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.596E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.491E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.954E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.67961100000002 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9488E+00 3.8820E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.9 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.1 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.9 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3411 f( 93, 5)= -1.231D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3422 f( 93, 5)= -1.222D-20 %fp_imp warning: RF renorm adjust = 7.93583018743858 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.22293522123483 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3411 f( 93, 5)= -1.231D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3422 f( 93, 5)= -1.222D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3433 f( 93, 5)= -1.213D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3444 f( 93, 5)= -1.204D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3456 f( 93, 5)= -1.195D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3467 f( 93, 5)= -1.186D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 %fp_imp warning: RF renorm adjust = 9.98287213111024 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.24782976230885 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3478 f( 93, 5)= -1.176D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3489 f( 93, 5)= -1.167D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3500 f( 93, 5)= -1.157D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3511 f( 93, 5)= -1.147D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3522 f( 93, 5)= -1.137D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3533 f( 93, 5)= -1.127D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.596E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.491E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.954E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3544 f( 93, 5)= -1.117D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3556 f( 93, 5)= -1.106D-20 %fp_imp warning: RF renorm adjust = 2.01191559205762 at nshe,nfasti = 7 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3544 f( 93, 5)= -1.117D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3556 f( 93, 5)= -1.106D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3567 f( 93, 5)= -1.096D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3578 f( 93, 5)= -1.085D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3589 f( 93, 5)= -1.075D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3600 f( 93, 5)= -1.064D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 252 TA= 1.73400E+01 CPU TIME= 2.05748E+00 SECONDS. DT= 3.65751E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.767361111111541 %check_save_state: izleft hours = 79.1658333333333 --> plasma_hash("gframe"): TA= 1.734000E+01 NSTEP= 252 Hash code: 108755686 ->PRGCHK: bdy curvature ratio at t= 1.7360E+01 seconds is: 1.5247E-01 % MHDEQ: TG1= 17.340000 ; TG2= 17.360000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8340E-03 SECONDS DATA R*BT AT EDGE: 7.3807E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5247E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.340000 TO TG2= 17.360000 @ NSTEP 252 GFRAME TG2 MOMENTS CHECKSUM: 1.3063117195216D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.46571E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.84731E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.595E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.466E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.887E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.92026299999998 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9474E+00 3.8816E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.8 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.8 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.8 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.8 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3617 f( 93, 5)= -1.806D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3633 f( 93, 5)= -1.787D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3617 f( 89, 3)= -1.178D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3633 f( 89, 3)= -1.173D-20 %fp_imp warning: RF renorm adjust = 9.27074273188203 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.38590469336603 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3617 f( 93, 5)= -1.806D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3633 f( 93, 5)= -1.787D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3650 f( 93, 5)= -1.767D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3667 f( 93, 5)= -1.748D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3683 f( 93, 5)= -1.727D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3700 f( 93, 5)= -1.706D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3617 f( 89, 3)= -1.178D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3633 f( 89, 3)= -1.173D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3650 f( 89, 3)= -1.167D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3667 f( 89, 3)= -1.160D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3683 f( 89, 3)= -1.154D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3700 f( 89, 3)= -1.147D-20 FPPRF: # of f < 0 errors = 6 on shell # 14 %fp_imp warning: RF renorm adjust = 8.62910536003714 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 8.93133833682536 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3717 f( 93, 5)= -1.685D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3733 f( 93, 5)= -1.663D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3750 f( 93, 5)= -1.641D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3767 f( 93, 5)= -1.619D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3783 f( 93, 5)= -1.596D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3800 f( 93, 5)= -1.573D-20 FPPRF: # of f < 0 errors = 6 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3717 f( 89, 3)= -1.140D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3733 f( 89, 3)= -1.134D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3750 f( 89, 3)= -1.126D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3767 f( 89, 3)= -1.119D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3783 f( 89, 3)= -1.112D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3800 f( 89, 3)= -1.104D-20 FPPRF: # of f < 0 errors = 6 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 256 TA= 1.73600E+01 CPU TIME= 2.00274E+00 SECONDS. DT= 7.56967E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.777437777778232 %check_save_state: izleft hours = 79.1558333333333 --> plasma_hash("gframe"): TA= 1.736000E+01 NSTEP= 256 Hash code: 68331943 ->PRGCHK: bdy curvature ratio at t= 1.7380E+01 seconds is: 1.6223E-01 % MHDEQ: TG1= 17.360000 ; TG2= 17.380000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6110E-03 SECONDS DATA R*BT AT EDGE: 7.3803E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6223E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.360000 TO TG2= 17.380000 @ NSTEP 256 GFRAME TG2 MOMENTS CHECKSUM: 1.3052280501918D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.55396E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.90592E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.592E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.436E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.803E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.74683999999979 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9477E+00 3.8810E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.9 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.9 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3817 f( 92, 3)= -1.506D-20 f<0 at time= 17.3817 f( 93, 5)= -3.216D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3833 f( 92, 3)= -1.519D-20 f<0 at time= 17.3833 f( 93, 5)= -3.203D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3817 f( 89, 3)= -1.598D-20 f<0 at time= 17.3817 f( 90, 5)= -1.155D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3833 f( 89, 3)= -1.595D-20 f<0 at time= 17.3833 f( 90, 5)= -1.149D-20 %fp_imp warning: RF renorm adjust = 2.54993421188324 at nshe,nfasti = 2 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3817 f( 92, 3)= -1.506D-20 f<0 at time= 17.3817 f( 93, 5)= -3.216D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3833 f( 92, 3)= -1.519D-20 f<0 at time= 17.3833 f( 93, 5)= -3.203D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3850 f( 92, 3)= -1.531D-20 f<0 at time= 17.3850 f( 93, 5)= -3.187D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3867 f( 92, 3)= -1.541D-20 f<0 at time= 17.3867 f( 93, 5)= -3.170D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3883 f( 92, 3)= -1.550D-20 f<0 at time= 17.3883 f( 93, 5)= -3.150D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3900 f( 92, 3)= -1.557D-20 f<0 at time= 17.3900 f( 93, 5)= -3.129D-20 FPPRF: # of f < 0 errors = 12 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3817 f( 89, 3)= -1.598D-20 f<0 at time= 17.3817 f( 90, 5)= -1.155D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3833 f( 89, 3)= -1.595D-20 f<0 at time= 17.3833 f( 90, 5)= -1.149D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3850 f( 89, 3)= -1.592D-20 f<0 at time= 17.3850 f( 90, 5)= -1.142D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3867 f( 89, 3)= -1.587D-20 f<0 at time= 17.3867 f( 90, 5)= -1.135D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3883 f( 89, 3)= -1.582D-20 f<0 at time= 17.3883 f( 90, 5)= -1.127D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3900 f( 89, 3)= -1.576D-20 f<0 at time= 17.3900 f( 90, 5)= -1.118D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 %fp_imp warning: RF renorm adjust = 2.24677304461502 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3917 f( 92, 3)= -1.563D-20 f<0 at time= 17.3917 f( 93, 5)= -3.105D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3933 f( 92, 3)= -1.568D-20 f<0 at time= 17.3933 f( 93, 5)= -3.080D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3950 f( 92, 3)= -1.571D-20 f<0 at time= 17.3950 f( 93, 5)= -3.053D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3967 f( 92, 3)= -1.574D-20 f<0 at time= 17.3967 f( 93, 5)= -3.025D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3983 f( 92, 3)= -1.575D-20 f<0 at time= 17.3983 f( 93, 5)= -2.996D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4000 f( 92, 3)= -1.575D-20 f<0 at time= 17.4000 f( 93, 5)= -2.965D-20 FPPRF: # of f < 0 errors = 12 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3917 f( 89, 3)= -1.569D-20 f<0 at time= 17.3917 f( 90, 5)= -1.108D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3933 f( 89, 3)= -1.561D-20 f<0 at time= 17.3933 f( 90, 5)= -1.098D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3950 f( 89, 3)= -1.552D-20 f<0 at time= 17.3950 f( 90, 5)= -1.088D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3967 f( 89, 3)= -1.543D-20 f<0 at time= 17.3967 f( 90, 5)= -1.076D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.3983 f( 89, 3)= -1.534D-20 f<0 at time= 17.3983 f( 90, 5)= -1.065D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4000 f( 89, 3)= -1.523D-20 f<0 at time= 17.4000 f( 90, 5)= -1.053D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 261 TA= 1.73800E+01 CPU TIME= 1.92220E+00 SECONDS. DT= 3.70584E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.787755833333449 %check_save_state: izleft hours = 79.1455555555556 --> plasma_hash("gframe"): TA= 1.738000E+01 NSTEP= 261 Hash code: 18749421 ->PRGCHK: bdy curvature ratio at t= 1.7400E+01 seconds is: 1.7809E-01 % MHDEQ: TG1= 17.380000 ; TG2= 17.400000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.5910E-03 SECONDS DATA R*BT AT EDGE: 7.3795E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7809E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.380000 TO TG2= 17.400000 @ NSTEP 261 GFRAME TG2 MOMENTS CHECKSUM: 1.3031368002700D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.66267E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.97259E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.591E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.417E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.752E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.63118299999996 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9481E+00 3.8795E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.8 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.8 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.8 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.2 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.2 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.5 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 326.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.8 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4017 f( 92, 3)= -1.202D-20 f<0 at time= 17.4017 f( 93, 5)= -2.253D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4033 f( 92, 3)= -1.197D-20 f<0 at time= 17.4033 f( 93, 5)= -2.226D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4017 f( 89, 3)= -1.707D-20 f<0 at time= 17.4017 f( 90, 5)= -1.274D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4033 f( 88, 2)= -1.905D-20 f<0 at time= 17.4033 f( 89, 3)= -1.697D-20 f<0 at time= 17.4033 f( 89, 4)= -1.040D-19 f<0 at time= 17.4033 f( 90, 5)= -1.255D-20 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4017 f( 92, 3)= -1.202D-20 f<0 at time= 17.4017 f( 93, 5)= -2.253D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4033 f( 92, 3)= -1.197D-20 f<0 at time= 17.4033 f( 93, 5)= -2.226D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4050 f( 92, 3)= -1.191D-20 f<0 at time= 17.4050 f( 93, 5)= -2.199D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4067 f( 92, 3)= -1.185D-20 f<0 at time= 17.4067 f( 93, 5)= -2.171D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4083 f( 92, 3)= -1.179D-20 f<0 at time= 17.4083 f( 93, 5)= -2.144D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4100 f( 92, 3)= -1.172D-20 f<0 at time= 17.4100 f( 93, 5)= -2.115D-20 FPPRF: # of f < 0 errors = 12 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4017 f( 89, 3)= -1.707D-20 f<0 at time= 17.4017 f( 90, 5)= -1.274D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4033 f( 88, 2)= -1.905D-20 f<0 at time= 17.4033 f( 89, 3)= -1.697D-20 f<0 at time= 17.4033 f( 89, 4)= -1.040D-19 f<0 at time= 17.4033 f( 90, 5)= -1.255D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4050 f( 88, 2)= -4.951D-20 f<0 at time= 17.4050 f( 89, 3)= -1.664D-20 f<0 at time= 17.4050 f( 89, 4)= -1.604D-19 f<0 at time= 17.4050 f( 90, 5)= -1.236D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4067 f( 88, 2)= -5.120D-20 f<0 at time= 17.4067 f( 89, 3)= -1.619D-20 f<0 at time= 17.4067 f( 89, 4)= -1.630D-19 f<0 at time= 17.4067 f( 90, 5)= -1.216D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4083 f( 88, 2)= -5.282D-20 f<0 at time= 17.4083 f( 89, 3)= -1.575D-20 f<0 at time= 17.4083 f( 89, 4)= -1.654D-19 f<0 at time= 17.4083 f( 90, 5)= -1.196D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4100 f( 88, 2)= -5.437D-20 f<0 at time= 17.4100 f( 89, 3)= -1.532D-20 f<0 at time= 17.4100 f( 89, 4)= -1.676D-19 f<0 at time= 17.4100 f( 90, 5)= -1.176D-20 FPPRF: # of f < 0 errors = 22 on shell # 14 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.43581315507401 at nshe,nfasti = 3 6 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4117 f( 92, 3)= -1.165D-20 f<0 at time= 17.4117 f( 93, 5)= -2.087D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4133 f( 92, 3)= -1.157D-20 f<0 at time= 17.4133 f( 93, 5)= -2.058D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4150 f( 92, 3)= -1.149D-20 f<0 at time= 17.4150 f( 93, 5)= -2.029D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4167 f( 92, 3)= -1.141D-20 f<0 at time= 17.4167 f( 93, 5)= -2.000D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4183 f( 92, 3)= -1.132D-20 f<0 at time= 17.4183 f( 93, 5)= -1.971D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4200 f( 92, 3)= -1.123D-20 f<0 at time= 17.4200 f( 93, 5)= -1.941D-20 FPPRF: # of f < 0 errors = 12 on shell # 12 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4117 f( 88, 2)= -5.584D-20 f<0 at time= 17.4117 f( 89, 3)= -1.489D-20 f<0 at time= 17.4117 f( 89, 4)= -1.695D-19 f<0 at time= 17.4117 f( 90, 5)= -1.156D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4133 f( 88, 2)= -5.725D-20 f<0 at time= 17.4133 f( 89, 3)= -1.448D-20 f<0 at time= 17.4133 f( 89, 4)= -1.712D-19 f<0 at time= 17.4133 f( 90, 5)= -1.135D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4150 f( 88, 2)= -5.860D-20 f<0 at time= 17.4150 f( 89, 3)= -1.407D-20 f<0 at time= 17.4150 f( 89, 4)= -1.728D-19 f<0 at time= 17.4150 f( 90, 5)= -1.115D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4167 f( 88, 2)= -5.988D-20 f<0 at time= 17.4167 f( 89, 3)= -1.368D-20 f<0 at time= 17.4167 f( 89, 4)= -1.741D-19 f<0 at time= 17.4167 f( 90, 5)= -1.094D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4183 f( 88, 2)= -6.110D-20 f<0 at time= 17.4183 f( 89, 3)= -1.329D-20 f<0 at time= 17.4183 f( 89, 4)= -1.752D-19 f<0 at time= 17.4183 f( 90, 5)= -1.074D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4200 f( 88, 2)= -6.225D-20 f<0 at time= 17.4200 f( 89, 3)= -1.291D-20 f<0 at time= 17.4200 f( 89, 4)= -1.761D-19 f<0 at time= 17.4200 f( 90, 5)= -1.053D-20 FPPRF: # of f < 0 errors = 24 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 266 TA= 1.74000E+01 CPU TIME= 2.05035E+00 SECONDS. DT= 3.04269E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.797765555555998 %check_save_state: izleft hours = 79.1355555555556 --> plasma_hash("gframe"): TA= 1.740000E+01 NSTEP= 266 Hash code: 119561489 ->PRGCHK: bdy curvature ratio at t= 1.7420E+01 seconds is: 1.7958E-01 % MHDEQ: TG1= 17.400000 ; TG2= 17.420000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7570E-03 SECONDS DATA R*BT AT EDGE: 7.3787E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7958E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.400000 TO TG2= 17.420000 @ NSTEP 266 GFRAME TG2 MOMENTS CHECKSUM: 1.3054328644428D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.65842E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.94629E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.591E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.412E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.736E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.91696700000011 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9492E+00 3.8843E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.7 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.7 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.7 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 326.7 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.7 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4217 f( 88, 2)= -3.823D-20 f<0 at time= 17.4217 f( 89, 3)= -1.084D-20 f<0 at time= 17.4217 f( 89, 4)= -1.032D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4233 f( 88, 2)= -3.845D-20 f<0 at time= 17.4233 f( 89, 3)= -1.068D-20 f<0 at time= 17.4233 f( 89, 4)= -1.030D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4217 f( 88, 2)= -3.823D-20 f<0 at time= 17.4217 f( 89, 3)= -1.084D-20 f<0 at time= 17.4217 f( 89, 4)= -1.032D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4233 f( 88, 2)= -3.845D-20 f<0 at time= 17.4233 f( 89, 3)= -1.068D-20 f<0 at time= 17.4233 f( 89, 4)= -1.030D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4250 f( 88, 2)= -3.865D-20 f<0 at time= 17.4250 f( 89, 3)= -1.052D-20 f<0 at time= 17.4250 f( 89, 4)= -1.027D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4267 f( 88, 2)= -3.883D-20 f<0 at time= 17.4267 f( 89, 3)= -1.037D-20 f<0 at time= 17.4267 f( 89, 4)= -1.024D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4283 f( 88, 2)= -3.900D-20 f<0 at time= 17.4283 f( 89, 3)= -1.021D-20 f<0 at time= 17.4283 f( 89, 4)= -1.021D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4300 f( 88, 2)= -3.915D-20 f<0 at time= 17.4300 f( 89, 3)= -1.006D-20 f<0 at time= 17.4300 f( 89, 4)= -1.017D-19 FPPRF: # of f < 0 errors = 18 on shell # 14 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4317 f( 88, 2)= -3.928D-20 f<0 at time= 17.4317 f( 89, 4)= -1.013D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4333 f( 88, 2)= -3.939D-20 f<0 at time= 17.4333 f( 89, 4)= -1.008D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4350 f( 88, 2)= -3.949D-20 f<0 at time= 17.4350 f( 89, 4)= -1.003D-19 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4367 f( 88, 2)= -3.957D-20 f<0 at time= 17.4367 f( 89, 4)= -9.981D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4383 f( 88, 2)= -3.964D-20 f<0 at time= 17.4383 f( 89, 4)= -9.927D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4400 f( 88, 2)= -3.969D-20 f<0 at time= 17.4400 f( 89, 4)= -9.870D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 271 TA= 1.74200E+01 CPU TIME= 1.99490E+00 SECONDS. DT= 3.07126E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.808546111111582 %check_save_state: izleft hours = 79.1247222222222 --> plasma_hash("gframe"): TA= 1.742000E+01 NSTEP= 271 Hash code: 81999166 ->PRGCHK: bdy curvature ratio at t= 1.7440E+01 seconds is: 1.7560E-01 % MHDEQ: TG1= 17.420000 ; TG2= 17.440000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7130E-03 SECONDS DATA R*BT AT EDGE: 7.3789E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7560E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.420000 TO TG2= 17.440000 @ NSTEP 271 GFRAME TG2 MOMENTS CHECKSUM: 1.3071887194297D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.75031E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.01600E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.387E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.668E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.63833100000011 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9494E+00 3.8897E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.6 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.6 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.6 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 326.6 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.6 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4417 f( 88, 2)= -2.418D-20 f<0 at time= 17.4417 f( 89, 4)= -5.421D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4433 f( 88, 2)= -2.370D-20 f<0 at time= 17.4433 f( 89, 4)= -5.267D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4417 f( 88, 2)= -2.418D-20 f<0 at time= 17.4417 f( 89, 4)= -5.421D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4433 f( 88, 2)= -2.370D-20 f<0 at time= 17.4433 f( 89, 4)= -5.267D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4450 f( 88, 2)= -2.323D-20 f<0 at time= 17.4450 f( 89, 4)= -5.118D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4467 f( 88, 2)= -2.277D-20 f<0 at time= 17.4467 f( 89, 4)= -4.972D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4483 f( 88, 2)= -2.232D-20 f<0 at time= 17.4483 f( 89, 4)= -4.830D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4500 f( 88, 2)= -2.188D-20 f<0 at time= 17.4500 f( 89, 4)= -4.692D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 %fp_imp warning: RF renorm adjust = 2.84146243956693 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.70802064629503 at nshe,nfasti = 4 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4517 f( 88, 2)= -2.144D-20 f<0 at time= 17.4517 f( 89, 4)= -4.557D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4533 f( 88, 2)= -2.101D-20 f<0 at time= 17.4533 f( 89, 4)= -4.426D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4550 f( 88, 2)= -2.058D-20 f<0 at time= 17.4550 f( 89, 4)= -4.298D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4567 f( 88, 2)= -2.016D-20 f<0 at time= 17.4567 f( 89, 4)= -4.173D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4583 f( 88, 2)= -1.975D-20 f<0 at time= 17.4583 f( 89, 4)= -4.052D-20 fp_imp_ck0: str = "fp_imp" f<0 at time= 17.4600 f( 88, 2)= -1.935D-20 f<0 at time= 17.4600 f( 89, 4)= -3.934D-20 FPPRF: # of f < 0 errors = 12 on shell # 14 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 276 TA= 1.74400E+01 CPU TIME= 1.96263E+00 SECONDS. DT= 2.86532E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.819253611111662 %check_save_state: izleft hours = 79.1138888888889 --> plasma_hash("gframe"): TA= 1.744000E+01 NSTEP= 276 Hash code: 41280542 ->PRGCHK: bdy curvature ratio at t= 1.7460E+01 seconds is: 1.6580E-01 % MHDEQ: TG1= 17.440000 ; TG2= 17.460000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6100E-03 SECONDS DATA R*BT AT EDGE: 7.3800E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6580E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.440000 TO TG2= 17.460000 @ NSTEP 276 GFRAME TG2 MOMENTS CHECKSUM: 1.3081401557637D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.78085E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.04773E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.588E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.385E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.661E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.65174299999990 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9488E+00 3.8920E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.7 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.7 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.7 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 326.7 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.7 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.71430823590119 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.45508696116560 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 5.66366633508645 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.66184833046077 at nshe,nfasti = 3 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 281 TA= 1.74600E+01 CPU TIME= 2.04994E+00 SECONDS. DT= 4.34953E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.829838888889299 %check_save_state: izleft hours = 79.1033333333333 --> plasma_hash("gframe"): TA= 1.746000E+01 NSTEP= 281 Hash code: 89852546 ->PRGCHK: bdy curvature ratio at t= 1.7480E+01 seconds is: 1.5652E-01 % MHDEQ: TG1= 17.460000 ; TG2= 17.480000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8230E-03 SECONDS DATA R*BT AT EDGE: 7.3807E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5652E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.460000 TO TG2= 17.480000 @ NSTEP 281 GFRAME TG2 MOMENTS CHECKSUM: 1.3077329202502D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.80369E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.04103E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.589E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.387E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.668E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.90503599999965 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9489E+00 3.8917E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.7 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.7 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.7 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 326.7 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.7 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.73842951052159 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.25312602028338 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.13404929470141 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 285 TA= 1.74800E+01 CPU TIME= 2.00964E+00 SECONDS. DT= 4.27175E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.840362499999856 %check_save_state: izleft hours = 79.0927777777778 --> plasma_hash("gframe"): TA= 1.748000E+01 NSTEP= 285 Hash code: 87458264 ->PRGCHK: bdy curvature ratio at t= 1.7500E+01 seconds is: 1.5258E-01 % MHDEQ: TG1= 17.480000 ; TG2= 17.500000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6220E-03 SECONDS DATA R*BT AT EDGE: 7.3803E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5258E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.480000 TO TG2= 17.500000 @ NSTEP 285 GFRAME TG2 MOMENTS CHECKSUM: 1.3074106747544D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.87856E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.12105E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.582E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.312E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.475E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.62795299999971 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9487E+00 3.8915E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.8 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.8 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.8 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.7 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 326.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.8 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.27601774369955 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 0.457694713015792 at nshe,nfasti = 3 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 291 TA= 1.75000E+01 CPU TIME= 2.05247E+00 SECONDS. DT= 3.98181E-03 /p/tshare/git/transp/codesys/csh/tarzip2 101185V10_fi/ 101185V10_FI_TAR.GZ1 --> return status = 0 /p/tshare/git/transp/codesys/csh/tarzip2 101185V10_icrf/ 101185V10_ICRF_TAR.GZ1 ?fi_entar: --> return status = 0 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.851519444444648 %check_save_state: izleft hours = 79.0816666666667 --> plasma_hash("gframe"): TA= 1.750000E+01 NSTEP= 291 Hash code: 75598291 ->PRGCHK: bdy curvature ratio at t= 1.7520E+01 seconds is: 1.5649E-01 % MHDEQ: TG1= 17.500000 ; TG2= 17.520000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6460E-03 SECONDS DATA R*BT AT EDGE: 7.3788E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5649E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.500000 TO TG2= 17.520000 @ NSTEP 291 GFRAME TG2 MOMENTS CHECKSUM: 1.3070442922921D+04 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. i3dncod: encode/decode inexact: abs value(in,out): 2.99426164680081 2.99426164680081 difference: 4.440892098500626E-016 i3dncod: encode/decode inexact: abs value(in,out): 7.57508872454806 7.57508872454806 difference: 8.881784197001252E-016 i3dncod: encode/decode inexact: abs value(in,out): 15.2402386709213 15.2402386709213 difference: -1.776356839400250E-015 %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 301 TA= 1.75122E+01 CPU TIME= 1.91817E+00 SECONDS. DT= 1.51749E-03 %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.12125E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.26310E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.563E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.107E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 5.948E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.80368799999997 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9482E+00 3.8899E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.8 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.8 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.8 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.6 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.6 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 326.9 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.8 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.12475056642650 at nshe,nfasti = 1 6 %fp_imp warning: RF renorm adjust = 3.29543582215405 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.00601714496591 at nshe,nfasti = 1 6 %fp_imp warning: RF renorm adjust = 3.39270349184078 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.563E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.107E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 5.948E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 308 TA= 1.75200E+01 CPU TIME= 2.25443E+00 SECONDS. DT= 6.68332E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.867099166666776 %check_save_state: izleft hours = 79.0661111111111 --> plasma_hash("gframe"): TA= 1.752000E+01 NSTEP= 308 Hash code: 39485057 ->PRGCHK: bdy curvature ratio at t= 1.7540E+01 seconds is: 1.6973E-01 % MHDEQ: TG1= 17.520000 ; TG2= 17.540000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.7810E-03 SECONDS DATA R*BT AT EDGE: 7.3820E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6973E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.520000 TO TG2= 17.540000 @ NSTEP 308 GFRAME TG2 MOMENTS CHECKSUM: 1.3059235794091D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 319 TA= 1.75325E+01 CPU TIME= 2.34506E+00 SECONDS. DT= 1.53593E-03 %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.23724E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.32994E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.543E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 1.912E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 5.447E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.91078500000003 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9501E+00 3.8950E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.9 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.3 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.3 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.0 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.9 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.04197010838174 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.13330395644522 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.55476634390504 at nshe,nfasti = 7 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 8.28338508858388 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.13693251150123 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.40622183771583 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.543E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 1.912E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 5.447E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 325 TA= 1.75400E+01 CPU TIME= 2.22460E+00 SECONDS. DT= 1.73913E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.882661944444635 %check_save_state: izleft hours = 79.0505555555556 --> plasma_hash("gframe"): TA= 1.754000E+01 NSTEP= 325 Hash code: 41132823 ->PRGCHK: bdy curvature ratio at t= 1.7560E+01 seconds is: 1.7133E-01 % MHDEQ: TG1= 17.540000 ; TG2= 17.560000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6200E-03 SECONDS DATA R*BT AT EDGE: 7.3825E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7133E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.540000 TO TG2= 17.560000 @ NSTEP 325 GFRAME TG2 MOMENTS CHECKSUM: 1.3059192178356D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 334 TA= 1.75582E+01 CPU TIME= 2.19536E+00 SECONDS. DT= 1.78346E-03 %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.06313E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.21437E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.555E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.021E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 5.727E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.76245699999981 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9516E+00 3.8983E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 267.9 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 267.9 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.9 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.1 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 267.9 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00626444470272 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.43979759379066 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.11438492719635 at nshe,nfasti = 7 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.81227529813101 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.31592373440245 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.38694021890173 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.15609503973025 at nshe,nfasti = 5 6 %fp_imp warning: RF renorm adjust = 2.75077905889170 at nshe,nfasti = 7 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.45663616420660 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 3.48051970087208 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.41911425550903 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.45459503690477 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.15493586218946 at nshe,nfasti = 5 6 %fp_imp warning: RF renorm adjust = 3.16919498000044 at nshe,nfasti = 7 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 8.13394878246923 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 4.80406742361227 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.52684377495595 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.18252705297445 at nshe,nfasti = 5 6 %fp_imp warning: RF renorm adjust = 3.60113668590044 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.555E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.021E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 5.727E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.12984320884082 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 2.85405918201626 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.20007904555555 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.02157422873857 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.17595002390327 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 3.03318732388338 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 4.34483449480096 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 3.91161345578745 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 2.23032523741182 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -3.36191836712866 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.13489350987432 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 3.17805547858002 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 3.95114965610227 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -0.628087655269100 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1.08570691905670 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1.46106103476270 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1.87558255879274 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -2.82095984264242 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -5.14264832129134 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -13.0617506146609 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -25.7013945700686 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -73.7263280103844 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -250.048483810644 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -1059.11742445656 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = -13491.3074570283 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.06944714418228 at nshe,nfasti = 4 6 %fp_imp warning: RF renorm adjust = 3.28960288443398 at nshe,nfasti = 7 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 335 TA= 1.75600E+01 CPU TIME= 2.35089E+00 SECONDS. DT= 2.22932E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.898927222222255 %check_save_state: izleft hours = 79.0341666666667 --> plasma_hash("gframe"): TA= 1.756000E+01 NSTEP= 335 Hash code: 32210715 ->PRGCHK: bdy curvature ratio at t= 1.7580E+01 seconds is: 1.6747E-01 % MHDEQ: TG1= 17.560000 ; TG2= 17.580000 ; DTG= 2.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.8020E-03 SECONDS DATA R*BT AT EDGE: 7.3802E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6747E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.560000 TO TG2= 17.580000 @ NSTEP 335 GFRAME TG2 MOMENTS CHECKSUM: 1.3065527270273D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 345 TA= 1.75748E+01 CPU TIME= 2.05812E+00 SECONDS. DT= 1.83258E-03 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.99694E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.18467E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.569E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.168E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.100E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 2.89596200000005 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 30 / 39 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.9512E+00 3.8990E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 4.2560E+07 Hz. He4 harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) D harmonic 2 at R= 268.0 cm.B= 2.7917E+00 gauss( ) T harmonic 3 at R= 268.0 cm.B= 2.7917E+00 gauss( ) harmonic 4 at R= 358.4 cm.B= 2.0937E+00 gauss( ) Be9_4 harmonic 2 at R= 237.8 cm.B= 3.1406E+00 gauss( ) harmonic 3 at R= 358.4 cm.B= 2.0937E+00 gauss( ) W182_74 harmonic 2 at R= 216.7 cm.B= 3.4330E+00 gauss( ) harmonic 3 at R= 327.2 cm.B= 2.2887E+00 gauss( ) *H_mino harmonic 1 at R= 268.0 cm.B= 2.7917E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 0.358554353391618 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 0.413718668972819 at nshe,nfasti = 2 6 %fp_imp warning: RF renorm adjust = 3.97158176253817 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.15941311566036 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.11378638320345 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.467635091836758 at nshe,nfasti = 7 6 !rfxqlo_profnt_write: minimum Ni_Be [cm^-3] toric input data is 1.569E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_W [cm^-3] toric input data is 2.168E-06 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_H_rfmi [cm^-3] toric input data is 6.100E-05 -- reset to 1.000E+04 lun for writing 101185V10_A1_27_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 101185V10_A1_27_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 101185V10_A1_27_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 101185V10_A1_27_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.18599049641034 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.35161846924228 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.63685578341645 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.02395173669057 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.392486359481954 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.99278196050565 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.16493982458719 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.77564030850760 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.411229565503208 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.37666261845515 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.03313769802909 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.27613553059090 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.80616996136577 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.430679652391792 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 2.44543653176391 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.39062716623086 at nshe,nfasti = 3 6 %fp_imp warning: RF renorm adjust = 2.20875493467262 at nshe,nfasti = 3 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.78394621526287 at nshe,nfasti = 7 6 %fp_imp warning: RF renorm adjust = 0.440826151655992 at nshe,nfasti = 7 6 %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 31 33 30 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 349 TA= 1.75800E+01 CPU TIME= 2.01050E+00 SECONDS. DT= 1.05804E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.914686944444611 %check_save_state: izleft hours = 79.0186111111111 --> plasma_hash("gframe"): TA= 1.758000E+01 NSTEP= 349 Hash code: 6522470 ->PRGCHK: bdy curvature ratio at t= 1.7590E+01 seconds is: 1.6197E-01 % MHDEQ: TG1= 17.580000 ; TG2= 17.590000 ; DTG= 1.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.6280E-03 SECONDS DATA R*BT AT EDGE: 7.3812E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6197E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.580000 TO TG2= 17.590000 @ NSTEP 349 GFRAME TG2 MOMENTS CHECKSUM: 1.3073386669612D+04 --> plasma_hash("gframe"): TA= 1.759000E+01 NSTEP= 355 Hash code: 49118972 ->PRGCHK: bdy curvature ratio at t= 1.7600E+01 seconds is: 1.5690E-01 % MHDEQ: TG1= 17.590000 ; TG2= 17.600000 ; DTG= 1.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.1790E-03 SECONDS DATA R*BT AT EDGE: 7.3821E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5690E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 17.590000 TO TG2= 17.600000 @ NSTEP 355 GFRAME TG2 MOMENTS CHECKSUM: 1.3081246068951D+04 %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.97297E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.17368E-38 RESET TO ZERO %ACAVG warning: non-zero status on: rm -f 101185V10TMP.BDENS2.TMP 101185V10TMP.BDENS2 %ACAVG warning: non-zero status on: rm -f 101185V10NMP.BDENS2.TMP 101185V10NMP.BDENS2 (jsystem() calls replaced with portlib calls). %ACAVG warning: non-zero status on: rm -f 101185V10TMP.BMVOL.TMP 101185V10TMP.BMVOL %ACAVG warning: non-zero status on: rm -f 101185V10NMP.BMVOL.TMP 101185V10NMP.BMVOL (jsystem() calls replaced with portlib calls). %ACAVG warning: non-zero status on: rm -f 101185V10TMP.EBA2PL.TMP 101185V10TMP.EBA2PL %ACAVG warning: non-zero status on: rm -f 101185V10NMP.EBA2PL.TMP 101185V10NMP.EBA2PL (jsystem() calls replaced with portlib calls). %ACAVG warning: non-zero status on: rm -f 101185V10TMP.EBA2PP.TMP 101185V10TMP.EBA2PP %ACAVG warning: non-zero status on: rm -f 101185V10NMP.EBA2PP.TMP 101185V10NMP.EBA2PP (jsystem() calls replaced with portlib calls). %ACAVG warning: non-zero status on: rm -f 101185V10TMP.FBM.TMP 101185V10TMP.FBM %ACAVG warning: non-zero status on: rm -f 101185V10NMP.FBM.TMP 101185V10NMP.FBM (jsystem() calls replaced with portlib calls). %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. 4.2 Call trmpi_end (NORMAL EXIT) trmpi_end2 -I- 0 Ended MPI for TRANSP 4.2 TERMINATE THE RUN (NORMAL EXIT) CPU TIME USED (hours): 5.02073E-01 %kill_nubeam_server: no server READY file found. ------------ stderr ---------------- (mpi_share_env) process myid= 3 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 4 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 5 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 6 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 7 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 8 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 9 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 11 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 12 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 15 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 0 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 1 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 10 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 2 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 30 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 31 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 17 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 19 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 20 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 21 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 22 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 23 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 25 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 27 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 28 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 29 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 24 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 26 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 18 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 16 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 14 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 (mpi_share_env) process myid= 13 cwd: /local/tr_zstancar/transp_compute/JET/101185V10 outcor/tr_output-I- nbi_avg calls skipped trmpi_listener: service request "EXIT" on cpu# 12 trmpi_listener: service request "EXIT" on cpu# 15 trmpi_listener: service request "EXIT" on cpu# 11 trmpi_listener: service request "EXIT" on cpu# 2 trmpi_listener: service request "EXIT" on cpu# 10 trmpi_listener: service request "EXIT" on cpu# 3 trmpi_listener: service request "EXIT" on cpu# 6 trmpi_listener: service request "EXIT" on cpu# 7 trmpi_listener: service request "EXIT" on cpu# 9 trmpi_listener: service request "EXIT" on cpu# 14 trmpi_listener: service request "EXIT" on cpu# 13 trmpi_listener: service request "EXIT" on cpu# 4 trmpi_listener: service request "EXIT" on cpu# 5 trmpi_listener: service request "EXIT" on cpu# 8 trmpi_listener: service request "EXIT" on cpu# 1 trmpi_listener: service request "EXIT" on cpu# 24 trmpi_listener: service request "EXIT" on cpu# 30 trmpi_listener: service request "EXIT" on cpu# 26 trmpi_listener: service request "EXIT" on cpu# 21 trmpi_listener: service request "EXIT" on cpu# 22 trmpi_listener: service request "EXIT" on cpu# 20 trmpi_listener: service request "EXIT" on cpu# 29 trmpi_listener: service request "EXIT" on cpu# 23 trmpi_listener: service request "EXIT" on cpu# 16 trmpi_listener: service request "EXIT" on cpu# 25 trmpi_listener: service request "EXIT" on cpu# 28 trmpi_listener: service request "EXIT" on cpu# 18 trmpi_listener: service request "EXIT" on cpu# 31 trmpi_listener: service request "EXIT" on cpu# 17 trmpi_listener: service request "EXIT" on cpu# 19 trmpi_listener: service request "EXIT" on cpu# 27 ==>runtrx: TRANSP run successful ==========(runtrx)====================== ==========TRANSP output conversion====== date: Tue Jul 16 13:21:57 EDT 2024 ( mccune003.pppl.gov ) ==========(runtrx)====================== srart tr_finish_mpi.pl false pppl.gov 101185V10 JET tr_finish_mpi.pl 101185V10 JET ---------------> starting: plotcon 101185V10 2024/07/16:13:21:58 %PoPlot -- reading .PLN files %POPLT2-- PROCESSING RUN 101185V10 SHOT NO. 101185 EXPECT 300 SCALAR FCNS, 1031 PROFILE FCNS OF TIME "MF" FILE RECORD SIZE = 30 WORDS (FLOATING PT) dmg_datbuf_expand call from dmgini_sized: isize= 0 101185V10MF.PLN size = 124M [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 : Tue Jul 16 13:22:05 2024 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 15 define Scalar Fct 300 Define Multi Graphs 329 Write Profiles 1031 X 1 1 30 XB 2 2 30 RMJSYM 3 7 125 RMAJM 4 9 61 MCINDX 5 10 1860 ILIM 6 12 251 XGRID_NPHI 7 256 6 ILDEN 8 272 8 IVISB 9 275 2 INTNC 10 277 19 IXCA 11 288 2 RGRID 12 975 101 ZGRID 13 976 161 PSIRZ 14 977 16261 %dmgxot_spredm: non-monotonic X axis: #increasing steps: 264131 avg & max steps: 1.2943E-02 2.8909E-02 #decreasing steps: 324892 avg & max steps: 1.0522E-02 2.2885E-02 #zero steps: 630477 B_FIELD 15 978 48783 %dmgxot_spredm: non-monotonic X axis: #increasing steps: 1992173 avg & max steps: 1.6473E-02 1.8834E+00 #decreasing steps: 409508 avg & max steps: 8.0146E-02 4.0956E+00 #zero steps: 1256969 read NF File : 301 300 Write Multigraph: 329 ...readback test of .CDF file... 1662 variables, 17 dimensions 15 att ...header check SUCCESSFUL; now check data. ...check profile data... plotcon: CDF files in /local/tr_zstancar/transp_compute/JET/101185V10 /local/tr_zstancar/transp_compute/JET/101185V10/101185V10.CDF /local/tr_zstancar/transp_compute/JET/101185V10/101185V10PH.CDF %targz_pseq: no directory: 101185V10_replay (normal exit) %targz_solv: in /local/tr_zstancar/transp_compute/JET/101185V10 on host mccune003 %targz_solv: no TGLF debug info found (normal exit) %targz_solv: no TGLF debug info found (normal exit) --------------->plotcon: normal exit. 2024/07/16:13:22:06 ==>runtrx: TRANSP postprocessing OK ==========(runtrx)====================== ==========TRANSP finish and cleanup===== date: Tue Jul 16 13:22:06 EDT 2024 ( mccune003.pppl.gov ) ==========(runtrx)====================== %finishup -I- pppl.gov production run %finishup: copying TRANSP permanent output files to /u/tr_zstancar/transp/result/JET.21 101185V10.DATA1: 4501 variable(s) found. Reordering file... done. tar 101185V10CC.TMP mv 101185V10CC.TMP /u/tr_zstancar/transp/result/JET.21/101185V10CC.TMP tar 101185V10.CDF mv 101185V10.CDF /u/tr_zstancar/transp/result/JET.21/101185V10.CDF tar 101185V10.DATA1 mv 101185V10.DATA1 /u/tr_zstancar/transp/result/JET.21/101185V10.DATA1 tar 101185V10ex.for mv 101185V10ex.for /u/tr_zstancar/transp/result/JET.21/101185V10ex.for tar 101185V10_FI_TAR.GZ1 mv 101185V10_FI_TAR.GZ1 /u/tr_zstancar/transp/result/JET.21/101185V10_FI_TAR.GZ1 tar 101185V10FPPRF.DATA mv 101185V10FPPRF.DATA /u/tr_zstancar/transp/result/JET.21/101185V10FPPRF.DATA tar 101185V10_ICRF_TAR.GZ1 mv 101185V10_ICRF_TAR.GZ1 /u/tr_zstancar/transp/result/JET.21/101185V10_ICRF_TAR.GZ1 tar 101185V10_JET.REQUEST mv 101185V10_JET.REQUEST /u/tr_zstancar/transp/result/JET.21/101185V10_JET.REQUEST tar 101185V10PH.CDF mv 101185V10PH.CDF /u/tr_zstancar/transp/result/JET.21/101185V10PH.CDF mv 101185V10.target /u/tr_zstancar/transp/result/JET.21/101185V10.target tar 101185V10TR.DAT mv 101185V10TR.DAT /u/tr_zstancar/transp/result/JET.21/101185V10TR.DAT mv 101185V10.trexe /u/tr_zstancar/transp/result/JET.21/101185V10.trexe tar 101185V10TR.INF mv 101185V10TR.INF /u/tr_zstancar/transp/result/JET.21/101185V10TR.INF %finishup: retaining 101185V10tr.log tar 101185V10TR.MSG mv 101185V10TR.MSG /u/tr_zstancar/transp/result/JET.21/101185V10TR.MSG tar 101185V10.yml mv 101185V10.yml /u/tr_zstancar/transp/result/JET.21/101185V10.yml rm: No match. %finishup: cp -f /local/tr_zstancar/transp_tmp/JET.21_101185V10.tar.gz /u/tr_zstancar/transp/result/JET.21/JET.21_101185V10.tar.gz %finishup: wrote /u/tr_zstancar/transp/result/JET.21/JET.21_101185V10.FILESREADY ==========(runtrx)====================== ==========>runtrx normal exit<========== date: Tue Jul 16 13:22:12 EDT 2024 ( mccune003.pppl.gov ) ==========>runtrx runsite = pppl.gov<======